Internet-Draft | Babel Information Model | January 2021 |
Stark & Jethanandani | Expires 30 July 2021 | [Page] |
This Babel Information Model provides structured data elements for a Babel implementation reporting its current state and may allow limited configuration of some such data elements. This information model can be used as a basis for creating data models under various data modeling regimes. This information model only includes parameters and parameter values useful for managing Babel over IPv6.¶
This Internet-Draft is submitted in full conformance with the provisions of BCP 78 and BCP 79.¶
Internet-Drafts are working documents of the Internet Engineering Task Force (IETF). Note that other groups may also distribute working documents as Internet-Drafts. The list of current Internet-Drafts is at https://datatracker.ietf.org/drafts/current/.¶
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This Internet-Draft will expire on 30 July 2021.¶
Copyright (c) 2021 IETF Trust and the persons identified as the document authors. All rights reserved.¶
This document is subject to BCP 78 and the IETF Trust's Legal Provisions Relating to IETF Documents (https://trustee.ietf.org/license-info) in effect on the date of publication of this document. Please review these documents carefully, as they describe your rights and restrictions with respect to this document. Code Components extracted from this document must include Simplified BSD License text as described in Section 4.e of the Trust Legal Provisions and are provided without warranty as described in the Simplified BSD License.¶
Babel is a loop-avoiding distance-vector routing protocol defined in [I-D.ietf-babel-rfc6126bis]. [I-D.ietf-babel-hmac] defines a security mechanism that allows Babel packets to be cryptographically authenticated, and [I-D.ietf-babel-dtls] defines a security mechanism that allows Babel packets to be both authenticated and encrypted. This document describes an information model for Babel (including implementations using one or both of these security mechanisms) that can be used to create management protocol data models (such as a NETCONF [RFC6241] YANG [RFC7950] data model).¶
Due to the simplicity of the Babel protocol, most of the information model is focused on reporting Babel protocol operational state, and very little of that is considered mandatory to implement for an implementation claiming compliance with this information model. Some parameters may be configurable. However, it is up to the Babel implementation whether to allow any of these to be configured within its implementation. Where the implementation does not allow configuration of these parameters, it MAY still choose to expose them as read-only.¶
The Information Model is presented using a hierarchical structure. This does not preclude a data model based on this Information Model from using a referential or other structure.¶
This information model only includes parameters and parameter values useful for managing Babel over IPv6. This model has no parameters or values specific to operating Babel over IPv4, even though [I-D.ietf-babel-rfc6126bis] does define a multicast group for sending and listening to multicast announcements on IPv4. There is less likelihood of breakage due to inconsistent configuration and increased implementation simplicity if Babel is operated always and only over IPv6. Running Babel over IPv6 requires IPv6 at the link layer and does not need advertised prefixes, router advertisements or DHCPv6 to be present in the network. Link-local IPv6 is widely supported among devices where Babel is expected to be used. Note that Babel over IPv6 can be used for configuration of both IPv4 and IPv6 routes.¶
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 BCP014 [RFC2119] [RFC8174] when, and only when, they appear in all capitals, as shown here.¶
This document uses a programming language-like notation to define the properties of the objects of the information model. An optional property is enclosed by square brackets, [ ], and a list property is indicated by two numbers in angle brackets, <m..n>, where m indicates the minimal number of list elements, and n indicates the maximum number of list elements. The symbol * for n means there are no defined limits on the number of list elements. Each parameter and object includes an indication of "ro" or "rw". "ro" means the parameter or object is read-only. "rw" means it is read-write. For an object, read-write means instances of the object can be created or deleted. If an implementation is allowed to choose to implement a "rw" parameter as read-only, this is noted in the parameter description.¶
The object definitions use base types that are defined as follows:¶
A binary string (sequence of octets).¶
A type representing a Boolean (true or false) value.¶
A type representing a date and time using the Gregorian calendar. The datetime format MUST conform to RFC 3339 [RFC3339] Section 5.6.¶
A type representing an IP address. This type supports both IPv4 and IPv6 addresses.¶
A type representing a remote procedure call or other action that can be used to manipulate data elements or system behaviors.¶
A type representing a reference to another information or data model element or to some other device resource.¶
A type representing a human-readable string consisting of a (possibly restricted) subset of Unicode and ISO/IEC 10646 [ISO.10646] characters.¶
A type representing an unsigned integer number. This information model does not define a precision.¶
The Information Model is hierarchically structured as follows:¶
+-- babel-information +-- babel-implementation-version +-- babel-enable +-- router-id +-- self-seqno +-- babel-metric-comp-algorithms +-- babel-security-supported +-- babel-mac-algorithms +-- babel-dtls-cert-types +-- babel-stats-enable +-- babel-stats-reset +-- babel-constants | +-- babel-udp-port | +-- babel-mcast-group +-- babel-interfaces | +-- babel-interface-reference | +-- babel-interface-enable | +-- babel-interface-metric-algorithm | +-- babel-interface-split-horizon | +-- babel-mcast-hello-seqno | +-- babel-mcast-hello-interval | +-- babel-update-interval | +-- babel-mac-enable | +-- babel-if-mac-key-sets | +-- babel-mac-verify | +-- babel-dtls-enable | +-- babel-if-dtls-cert-sets | +-- babel-dtls-cached-info | +-- babel-dtls-cert-prefer | +-- babel-packet-log-enable | +-- babel-packet-log | +-- babel-if-stats | | +-- babel-sent-mcast-hello | | +-- babel-sent-mcast-update | | +-- babel-sent-ucast-hello | | +-- babel-sent-ucast-update | | +-- babel-sent-IHU | | +-- babel-received-packets | +-- babel-neighbors | +-- babel-neighbor-address | +-- babel-hello-mcast-history | +-- babel-hello-ucast-history | +-- babel-txcost | +-- babel-exp-mcast-hello-seqno | +-- babel-exp-ucast-hello-seqno | +-- babel-ucast-hello-seqno | +-- babel-ucast-hello-interval | +-- babel-rxcost | +-- babel-cost +-- babel-routes | +-- babel-route-prefix | +-- babel-route-prefix-length | +-- babel-route-router-id | +-- babel-route-neighbor | +-- babel-route-received-metric | +-- babel-route-calculated-metric | +-- babel-route-seqno | +-- babel-route-next-hop | +-- babel-route-feasible | +-- babel-route-selected +-- babel-mac-key-sets | +-- babel-mac-default-apply | +-- babel-mac-keys | +-- babel-mac-key-name | +-- babel-mac-key-use-send | +-- babel-mac-key-use-verify | +-- babel-mac-key-value | +-- babel-mac-key-algorithm | +-- babel-mac-key-test +-- babel-dtls-cert-sets +-- babel-dtls-default-apply +-- babel-dtls-certs +-- babel-cert-name +-- babel-cert-value +-- babel-cert-type +-- babel-cert-private-key¶
Most parameters are read-only. Following is a descriptive list of the parameters that are not required to be read-only:¶
The following parameters are required to return no value when read:¶
Note that this overview is intended simply to be informative and is not normative. If there is any discrepancy between this overview and the detailed information model definitions in subsequent sections, the error is in this overview.¶
object { string ro babel-implementation-version; boolean rw babel-enable; binary ro babel-self-router-id; [uint ro babel-self-seqno;] string ro babel-metric-comp-algorithms<1..*>; string ro babel-security-supported<0..*>; [string ro babel-mac-algorithms<1..*>;] [string ro babel-dtls-cert-types<1..*>;] [boolean rw babel-stats-enable;] [operation babel-stats-reset;] babel-constants-obj ro babel-constants; babel-interface-obj ro babel-interfaces<0..*>; babel-route-obj ro babel-routes<0..*>; [babel-mac-key-set-obj rw babel-mac-key-sets<0..*>;] [babel-dtls-cert-set-obj rw babel-dtls-cert-sets<0..*>;] } babel-information-obj;¶
The name and version of this implementation of the Babel protocol.¶
When written, it configures whether the protocol should be enabled (true) or disabled (false). A read from the running or intended datastore indicates the configured administrative value of whether the protocol is enabled (true) or not (false). A read from the operational datastore indicates whether the protocol is actually running (true) or not (i.e., it indicates the operational state of the protocol). A data model that does not replicate parameters for running and operational datastores can implement this as two separate parameters. An implementation MAY choose to expose this parameter as read-only ("ro").¶
The router-id used by this instance of the Babel protocol to identify itself. [I-D.ietf-babel-rfc6126bis] describes this as an arbitrary string of 8 octets. The router-id value MUST NOT consist of all zeroes or all ones.¶
The current sequence number included in route updates for routes originated by this node. This is a 16-bit unsigned integer.¶
List of supported cost computation algorithms. Possible values include "2-out-of-3", and "ETX". "2-out-of-3" is described in [I-D.ietf-babel-rfc6126bis], section A.2.1. "ETX" is described in [I-D.ietf-babel-rfc6126bis], section A.2.2.¶
List of supported security mechanisms. Possible values include "MAC" to indicate support of [I-D.ietf-babel-hmac] and "DTLS" to indicate support of [I-D.ietf-babel-dtls].¶
List of supported MAC computation algorithms. Possible values include "HMAC-SHA256", "BLAKE2s-128" to indicate support for algorithms indicated in [I-D.ietf-babel-hmac].¶
List of supported DTLS certificate types. Possible values include "X.509" and "RawPublicKey" to indicate support for types indicated in [I-D.ietf-babel-dtls].¶
Indicates whether statistics collection is enabled (true) or disabled (false) on all interfaces. When enabled, existing statistics values are not cleared and will be incremented as new packets are counted.¶
An operation that resets all babel-if-stats parameters to zero. This operation has no input or output parameters.¶
A babel-constants-obj object.¶
A set of babel-interface-obj objects.¶
A set of babel-route-obj objects. Contains the routes known to this node.¶
A set of babel-mac-key-set-obj objects. If this object is implemented, it provides access to parameters related to the MAC security mechanism. An implementation MAY choose to expose this object as read-only ("ro").¶
A set of babel-dtls-cert-set-obj objects. If this object is implemented, it provides access to parameters related to the DTLS security mechanism. An implementation MAY choose to expose this object as read-only ("ro").¶
object { uint rw babel-udp-port; [ip-address rw babel-mcast-group;] } babel-constants-obj;¶
UDP port for sending and listening for Babel packets. Default is 6696. An implementation MAY choose to expose this parameter as read-only ("ro"). This is a 16-bit unsigned integer.¶
Multicast group for sending and listening to multicast announcements on IPv6. Default is ff02::1:6. An implementation MAY choose to expose this parameter as read-only ("ro").¶
object { reference ro babel-interface-reference; [boolean rw babel-interface-enable;] string rw babel-interface-metric-algorithm; [boolean rw babel-interface-split-horizon;] [uint ro babel-mcast-hello-seqno;] [uint ro babel-mcast-hello-interval;] [uint ro babel-update-interval;] [boolean rw babel-mac-enable;] [reference rw babel-if-mac-key-sets<0..*>;] [boolean rw babel-mac-verify;] [boolean rw babel-dtls-enable;] [reference rw babel-if-dtls-cert-sets<0..*>;] [boolean rw babel-dtls-cached-info;] [string rw babel-dtls-cert-prefer<0..*>;] [boolean rw babel-packet-log-enable;] [reference ro babel-packet-log;] [babel-if-stats-obj ro babel-if-stats;] babel-neighbor-obj ro babel-neighbors<0..*>; } babel-interface-obj;¶
Reference to an interface object that can be used to send and receive IPv6 packets, as defined by the data model (e.g., YANG [RFC7950], BBF [TR-181]). Referencing syntax will be specific to the data model. If there is no set of interface objects available, this should be a string that indicates the interface name used by the underlying operating system.¶
When written, it configures whether the protocol should be enabled (true) or disabled (false) on this interface. A read from the running or intended datastore indicates the configured administrative value of whether the protocol is enabled (true) or not (false). A read from the operational datastore indicates whether the protocol is actually running (true) or not (i.e., it indicates the operational state of the protocol). A data model that does not replicate parameters for running and operational datastores can implement this as two separate parameters. An implementation MAY choose to expose this parameter as read-only ("ro").¶
Indicates the metric computation algorithm used on this interface. The value MUST be one of those listed in the babel-information-obj babel-metric-comp-algorithms parameter. An implementation MAY choose to expose this parameter as read-only ("ro").¶
Indicates whether or not the split horizon optimization is used when calculating metrics on this interface. A value of true indicates split horizon optimization is used. Split horizon optimization is described in [I-D.ietf-babel-rfc6126bis], section 3.7.4. An implementation MAY choose to expose this parameter as read-only ("ro").¶
The current sequence number in use for multicast Hellos sent on this interface. This is a 16-bit unsigned integer.¶
The current interval in use for multicast Hellos sent on this interface. Units are centiseconds. This is a 16-bit unsigned integer.¶
The current interval in use for all updates (multicast and unicast) sent on this interface. Units are centiseconds. This is a 16-bit unsigned integer.¶
Indicates whether the MAC security mechanism is enabled (true) or disabled (false). An implementation MAY choose to expose this parameter as read-only ("ro").¶
List of references to the babel-mac entries that apply to this interface. When an interface instance is created, all babel-mac-key-sets instances with babel-mac-default-apply "true" will be included in this list. An implementation MAY choose to expose this parameter as read-only ("ro").¶
A Boolean flag indicating whether MACs in incoming Babel packets are required to be present and are verified. If this parameter is "true", incoming packets are required to have a valid MAC. An implementation MAY choose to expose this parameter as read-only ("ro").¶
Indicates whether the DTLS security mechanism is enabled (true) or disabled (false). An implementation MAY choose to expose this parameter as read-only ("ro").¶
List of references to the babel-dtls-cert-sets entries that apply to this interface. When an interface instance is created, all babel-dtls-cert-sets instances with babel-dtls-default-apply "true" will be included in this list. An implementation MAY choose to expose this parameter as read-only ("ro").¶
Indicates whether the cached_info extension (see [I-D.ietf-babel-dtls] Appendix A) is included in ClientHello and ServerHello packets. The extension is included if the value is "true". An implementation MAY choose to expose this parameter as read-only ("ro").¶
List of supported certificate types, in order of preference. The values MUST be among those listed in the babel-dtls-cert-types parameter. This list is used to populate the server_certificate_type extension (see [I-D.ietf-babel-dtls] Appendix A) in a Client Hello. Values that are present in at least one instance in the babel-dtls-certs object of a referenced babel-dtls instance and that have a non-empty babel-cert-private-key will be used to populate the client_certificate_type extension in a Client Hello.¶
Indicates whether packet logging is enabled (true) or disabled (false) on this interface.¶
A reference or url link to a file that contains a timestamped log of packets received and sent on babel-udp-port on this interface. The [libpcap] file format with .pcap file extension SHOULD be supported for packet log files. Logging is enabled / disabled by babel-packet-log-enable. Implementations will need to carefully manage and limit memory used by packet logs.¶
Statistics collection object for this interface.¶
A set of babel-neighbor-obj objects.¶
object { uint ro babel-sent-mcast-hello; uint ro babel-sent-mcast-update; uint ro babel-sent-ucast-hello; uint ro babel-sent-ucast-update; uint ro babel-sent-IHU; uint ro babel-received-packets; } babel-if-stats-obj;¶
A count of the number of multicast Hello packets sent on this interface.¶
A count of the number of multicast update packets sent on this interface.¶
A count of the number of unicast Hello packets sent on this interface.¶
A count of the number of unicast update packets sent on this interface.¶
A count of the number of IHU packets sent on this interface.¶
A count of the number of Babel packets received on this interface.¶
object { ip-address ro babel-neighbor-address; [binary ro babel-hello-mcast-history;] [binary ro babel-hello-ucast-history;] uint ro babel-txcost; uint ro babel-exp-mcast-hello-seqno; uint ro babel-exp-ucast-hello-seqno; [uint ro babel-ucast-hello-seqno;] [uint ro babel-ucast-hello-interval;] [uint ro babel-rxcost;] [uint ro babel-cost;] } babel-neighbor-obj;¶
IPv4 or IPv6 address the neighbor sends packets from.¶
The multicast Hello history of whether or not the multicast Hello packets prior to babel-exp-mcast-hello-seqno were received. A binary sequence where the most recently received Hello is expressed as a "1" placed in the left-most bit, with prior bits shifted right (and "0" bits placed between prior Hello bits and most recent Hello for any not-received Hellos). This value should be displayed using hex digits ([0-9a-fA-F]). See [I-D.ietf-babel-rfc6126bis], section A.1.¶
The unicast Hello history of whether or not the unicast Hello packets prior to babel-exp-ucast-hello-seqno were received. A binary sequence where the most recently received Hello is expressed as a "1" placed in the left-most bit, with prior bits shifted right (and "0" bits placed between prior Hello bits and most recent Hello for any not-received Hellos). This value should be displayed using hex digits ([0-9a-fA-F]). See [I-D.ietf-babel-rfc6126bis], section A.1.¶
Transmission cost value from the last IHU packet received from this neighbor, or maximum value to indicate the IHU hold timer for this neighbor has expired. See [I-D.ietf-babel-rfc6126bis], section 3.4.2. This is a 16-bit unsigned integer.¶
Expected multicast Hello sequence number of next Hello to be received from this neighbor. If multicast Hello packets are not expected, or processing of multicast packets is not enabled, this MUST be NULL. This is a 16-bit unsigned integer; if the data model uses zero (0) to represent NULL values for unsigned integers, the data model MAY use a different data type that allows differentiation between zero (0) and NULL.¶
Expected unicast Hello sequence number of next Hello to be received from this neighbor. If unicast Hello packets are not expected, or processing of unicast packets is not enabled, this MUST be NULL. This is a 16-bit unsigned integer; if the data model uses zero (0) to represent NULL values for unsigned integers, the data model MAY use a different data type that allows differentiation between zero (0) and NULL.¶
The current sequence number in use for unicast Hellos sent to this neighbor. If unicast Hellos are not being sent, this MUST be NULL. This is a 16-bit unsigned integer; if the data model uses zero (0) to represent NULL values for unsigned integers, the data model MAY use a different data type that allows differentiation between zero (0) and NULL.¶
The current interval in use for unicast Hellos sent to this neighbor. Units are centiseconds. This is a 16-bit unsigned integer.¶
Reception cost calculated for this neighbor. This value is usually derived from the Hello history, which may be combined with other data, such as statistics maintained by the link layer. The rxcost is sent to a neighbor in each IHU. See [I-D.ietf-babel-rfc6126bis], section 3.4.3. This is a 16-bit unsigned integer.¶
The link cost, as computed from the values maintained in the neighbor table: the statistics kept in the neighbor table about the reception of Hellos, and the txcost computed from received IHU packets. This is a 16-bit unsigned integer.¶
object { ip-address ro babel-route-prefix; uint ro babel-route-prefix-length; binary ro babel-route-router-id; reference ro babel-route-neighbor; uint ro babel-route-received-metric; uint ro babel-route-calculated-metric; uint ro babel-route-seqno; ip-address ro babel-route-next-hop; boolean ro babel-route-feasible; boolean ro babel-route-selected; } babel-route-obj;¶
Prefix (expressed in IP address format) for which this route is advertised.¶
Length of the prefix for which this route is advertised.¶
The router-id of the router that originated this route.¶
Reference to the babel-neighbors entry for the neighbor that advertised this route.¶
The metric with which this route was advertised by the neighbor, or maximum value to indicate the route was recently retracted and is temporarily unreachable (see Section 3.5.5 of [I-D.ietf-babel-rfc6126bis]). This metric will be NULL if the route was not received from a neighbor but was generated through other means. At least one of babel-route-calculated-metric and babel-route-received-metric MUST be non-NULL. Having both be non-NULL is expected for a route that is received and subsequently advertised. This is a 16-bit unsigned integer; if the data model uses zero (0) to represent NULL values for unsigned integers, the data model MAY use a different data type that allows differentiation between zero (0) and NULL.¶
A calculated metric for this route. How the metric is calculated is implementation-specific. Maximum value indicates the route was recently retracted and is temporarily unreachable (see Section 3.5.5 of [I-D.ietf-babel-rfc6126bis]). At least one of babel-route-calculated-metric and babel-route-received-metric MUST be non-NULL. Having both be non-NULL is expected for a route that is received and subsequently advertised. This is a 16-bit unsigned integer; if the data model uses zero (0) to represent NULL values for unsigned integers, the data model MAY use a different data type that allows differentiation between zero (0) and NULL.¶
The sequence number with which this route was advertised. This is a 16-bit unsigned integer.¶
The next-hop address of this route. This will be empty if this route has no next-hop address.¶
A Boolean flag indicating whether this route is feasible, as defined in Section 3.5.1 of [I-D.ietf-babel-rfc6126bis]).¶
A Boolean flag indicating whether this route is selected (i.e., whether it is currently being used for forwarding and is being advertised).¶
object { boolean rw babel-mac-default-apply; babel-mac-key-obj rw babel-mac-keys<0..*>; } babel-mac-key-set-obj;¶
A Boolean flag indicating whether this object instance is applied to all new babel-interface instances, by default. If "true", this instance is applied to new babel-interfaces instances at the time they are created, by including it in the babel-if-mac-key-sets list. If "false", this instance is not applied to new babel-interfaces instances when they are created. An implementation MAY choose to expose this parameter as read-only ("ro").¶
A set of babel-mac-key-obj objects.¶
object { string rw babel-mac-key-name; boolean rw babel-mac-key-use-send; boolean rw babel-mac-key-use-verify; binary -- babel-mac-key-value; string rw babel-mac-key-algorithm; [operation babel-mac-key-test;] } babel-mac-key-obj;¶
A unique name for this MAC key that can be used to identify the key in this object instance, since the key value is not allowed to be read. This value MUST NOT be empty and can only be provided when this instance is created (i.e., it is not subsequently writable). The value MAY be auto-generated if not explicitly supplied when the instance is created.¶
Indicates whether this key value is used to compute a MAC and include that MAC in the sent Babel packet. A MAC for sent packets is computed using this key if the value is "true". If the value is "false", this key is not used to compute a MAC to include in sent Babel packets. An implementation MAY choose to expose this parameter as read-only ("ro").¶
Indicates whether this key value is used to verify incoming Babel packets. This key is used to verify incoming packets if the value is "true". If the value is "false", no MAC is computed from this key for comparing with the MAC in an incoming packet. An implementation MAY choose to expose this parameter as read-only ("ro").¶
The value of the MAC key. An implementation MUST NOT allow this parameter to be read. This can be done by always providing an empty string when read, or through permissions, or other means. This value MUST be provided when this instance is created, and is not subsequently writable. This value is of a length suitable for the associated babel-mac-key-algorithm. If the algorithm is based on the HMAC construction [RFC2104], the length MUST be between 0 and the block size of the underlying hash inclusive (where "HMAC-SHA256" block size is 64 bytes as described in [RFC4868]). If the algorithm is "BLAKE2s-128", the length MUST be between 0 and 32 bytes inclusive, as described in [RFC7693].¶
The name of the MAC algorithm used with this key. The value MUST be the same as one of the enumerations listed in the babel-mac-algorithms parameter. An implementation MAY choose to expose this parameter as read-only ("ro").¶
An operation that allows the MAC key and MAC algorithm to be tested to see if they produce an expected outcome. Input to this operation are a binary string and a calculated MAC (also in the format of a binary string) for the binary string. The implementation is expected to create a MAC over the binary string using the babel-mac-key-value and the babel-mac-key-algorithm. The output of this operation is a Boolean indication that the calculated MAC matched the input MAC (true) or the MACs did not match (false).¶
object { boolean rw babel-dtls-default-apply; babel-dtls-cert-obj rw babel-dtls-certs<0..*>; } babel-dtls-cert-set-obj;¶
A Boolean flag indicating whether this object instance is applied to all new babel-interface instances, by default. If "true", this instance is applied to new babel-interfaces instances at the time they are created, by including it in the babel-interface-dtls-certs list. If "false", this instance is not applied to new babel-interfaces instances when they are created. An implementation MAY choose to expose this parameter as read-only ("ro").¶
A set of babel-dtls-cert-obj objects. This contains both certificates for this implementation to present for authentication, and to accept from others. Certificates with a non-empty babel-cert-private-key can be presented by this implementation for authentication.¶
object { string rw babel-cert-name; string rw babel-cert-value; string rw babel-cert-type; binary -- babel-cert-private-key; } babel-dtls-cert-obj;¶
A unique name for this certificate that can be used to identify the certificate in this object instance, since the value is too long to be useful for identification. This value MUST NOT be empty and can only be provided when this instance is created (i.e., it is not subsequently writable). The value MAY be auto-generated if not explicitly supplied when the instance is created.¶
The certificate in PEM format [RFC7468]. This value MUST be provided when this instance is created, and is not subsequently writable.¶
The name of the certificate type of this object instance. The value MUST be the same as one of the enumerations listed in the babel-dtls-cert-types parameter. This value can only be provided when this instance is created, and is not subsequently writable.¶
The value of the private key. If this is non-empty, this certificate can be used by this implementation to provide a certificate during DTLS handshaking. An implementation MUST NOT allow this parameter to be read. This can be done by always providing an empty string when read, or through permissions, or other means. This value can only be provided when this instance is created, and is not subsequently writable.¶
Implementations MAY extend this information model with other parameters or objects. For example, an implementation MAY choose to expose Babel route filtering rules by adding a route filtering object with parameters appropriate to how route filtering is done in that implementation. The precise means used to extend the information model would be specific to the data model the implementation uses to expose this information.¶
This document defines a set of information model objects and parameters that may be exposed to be visible from other devices, and some of which may be configured. Securing access to and ensuring the integrity of this data is in scope of and the responsibility of any data model derived from this information model. Specifically, any YANG [RFC7950] data model is expected to define security exposure of the various parameters, and a [TR-181] data model will be secured by the mechanisms defined for the management protocol used to transport it.¶
Misconfiguration (whether unintentional or malicious) can prevent reachability or cause poor network performance (increased latency, jitter, etc.). The information in this model discloses network topology, which can be used to mount subsequent attacks on traffic traversing the network.¶
This information model defines objects that can allow credentials (for this device, for trusted devices, and for trusted certificate authorities) to be added and deleted. Public keys may be exposed through this model. This model requires that private keys and MAC keys never be exposed. Certificates used by [I-D.ietf-babel-dtls] implementations use separate parameters to model the public parts (including the public key) and the private key.¶
MAC keys are allowed to be as short as zero-length. This is useful for testing. Network operators are RECOMMENDED to follow current best practices for key length and generation of keys related to the MAC algorithm associated with the key. Short (and zero-length) keys are highly susceptible to brute force attacks and therefore SHOULD NOT be used. See the Security Considerations section of [I-D.ietf-babel-hmac] for additional considerations related to MAC keys.¶
This information model uses key sets and certification sets to provide a means of grouping keys and certificates. This makes it easy to use a different set per interface, the same set for one or more interfaces, have a default set in case a new interface is instantiated and to change keys and certificates as needed.¶
This document has no IANA actions.¶
Juliusz Chroboczek, Toke Hoeiland-Joergensen, David Schinazi, Antonin Decimo, Acee Lindem, and Carsten Bormann have been very helpful in refining this information model.¶
The language in the Notation section was mostly taken from [RFC8193].¶