Network Working Group L. Huang Internet-Draft A. Clemm Intended status: Informational Cisco Systems Expires: March 4, 2013 August 31, 2012 YANG Data Model for Access Control List Configuration draft-huang-netmod-acl-00.txt Abstract This document defines a YANG data model for the configuration of Access Control Lists (ACLs) on a device. Status of This Memo 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 http://datatracker.ietf.org/drafts/current/. Internet-Drafts are draft documents valid for a maximum of six months and may be updated, replaced, or obsoleted by other documents at any time. It is inappropriate to use Internet-Drafts as reference material or to cite them other than as "work in progress." This Internet-Draft will expire on March 4, 2013. Copyright Notice Copyright (c) 2012 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 (http://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. This document may contain material from IETF Documents or IETF Contributions published or made publicly available before November Huang & Clemm Expires March 4, 2013 [Page 1] Internet-Draft yang-acl August 2012 10, 2008. The person(s) controlling the copyright in some of this material may not have granted the IETF Trust the right to allow modifications of such material outside the IETF Standards Process. Without obtaining an adequate license from the person(s) controlling the copyright in such materials, this document may not be modified outside the IETF Standards Process, and derivative works of it may not be created outside the IETF Standards Process, except to format it for publication as an RFC or to translate it into languages other than English. Huang & Clemm Expires March 4, 2013 [Page 2] Internet-Draft yang-acl August 2012 Table of Contents 1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . . 4 2. Definitions and Acronyms . . . . . . . . . . . . . . . . . . . 4 3. The Design of ACL Data Model . . . . . . . . . . . . . . . . . 5 4. acl Module . . . . . . . . . . . . . . . . . . . . . . . . . . 9 4.1. Features . . . . . . . . . . . . . . . . . . . . . . . . . 9 4.2. Types . . . . . . . . . . . . . . . . . . . . . . . . . . 10 4.3. Groupings . . . . . . . . . . . . . . . . . . . . . . . . 11 4.3.1. PORT-GROUP grouping . . . . . . . . . . . . . . . . . 11 4.3.2. MAC-SOURCE-NETWORK grouping . . . . . . . . . . . . . 11 4.3.3. MAC-DESTINATION-NETWORK grouping . . . . . . . . . . . 12 4.3.4. IP-ADDRESS-AND-MASK grouping . . . . . . . . . . . . . 13 4.3.5. IP-SOURCE-NETWORK grouping . . . . . . . . . . . . . . 13 4.3.6. IP-DESTINATION-NETWORK grouping . . . . . . . . . . . 14 4.4. Containers . . . . . . . . . . . . . . . . . . . . . . . . 15 4.4.1. acls Container . . . . . . . . . . . . . . . . . . . . 15 4.4.2. port-obj-grp Container . . . . . . . . . . . . . . . . 15 4.4.3. timerange-obj-grp Container . . . . . . . . . . . . . 16 4.4.4. ip-address-obj-grp Container . . . . . . . . . . . . . 16 5. acl-ip module . . . . . . . . . . . . . . . . . . . . . . . . 18 5.1. Groupings . . . . . . . . . . . . . . . . . . . . . . . . 18 5.1.1. ACTIONS Grouping . . . . . . . . . . . . . . . . . . . 18 5.1.2. SRC-PORT-GROUP grouping . . . . . . . . . . . . . . . 18 5.1.3. DES-PORT-GROUP grouping . . . . . . . . . . . . . . . 19 5.1.4. IP-ACE-FILTERS Grouping . . . . . . . . . . . . . . . 19 5.1.5. IPV4-ACE-GROUP Grouping . . . . . . . . . . . . . . . 21 5.1.6. IPV6-ACE-GROUP Grouping . . . . . . . . . . . . . . . 23 5.2. augment . . . . . . . . . . . . . . . . . . . . . . . . . 24 5.2.1. global-fragments leaf . . . . . . . . . . . . . . . . 25 6. acl-mac module . . . . . . . . . . . . . . . . . . . . . . . . 28 6.1. MAC-ACE-GROUP group . . . . . . . . . . . . . . . . . . . 28 6.1.1. mac-ace list . . . . . . . . . . . . . . . . . . . . . 29 6.2. augment . . . . . . . . . . . . . . . . . . . . . . . . . 29 7. acl-arp module . . . . . . . . . . . . . . . . . . . . . . . . 29 7.1. ARP-ACE-GROUP group . . . . . . . . . . . . . . . . . . . 30 7.2. arp-ace list . . . . . . . . . . . . . . . . . . . . . . . 30 7.3. augment . . . . . . . . . . . . . . . . . . . . . . . . . 31 8. Data Model Structure . . . . . . . . . . . . . . . . . . . . . 31 9. ACL YANG Module . . . . . . . . . . . . . . . . . . . . . . . 37 10. ACL-IP YANG Module . . . . . . . . . . . . . . . . . . . . . . 54 11. ACL-MAC Configuration YANG Module . . . . . . . . . . . . . . 67 12. ACL-ARP Configuration YANG Module . . . . . . . . . . . . . . 72 13. COMMON-TYPES YANG Module . . . . . . . . . . . . . . . . . . . 75 14. Security Considerations . . . . . . . . . . . . . . . . . . . 83 15. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . . 83 16. Normative References . . . . . . . . . . . . . . . . . . . . . 83 Huang & Clemm Expires March 4, 2013 [Page 3] Internet-Draft yang-acl August 2012 1. Introduction This document defines a YANG [RFC6020] data model for the configuration of Access Control Lists (ACLs). An ACL is an ordered set of rules that is used to filter traffic on a networking device, i.e. to define "firewall rules". Each rule is represented by an Access Control Entry (ACE). An ACE consists of two parts: Filters with a set of matching criteria that a packet must satisfy for the rule to be applied. Actions that specifies what to do with the packet when the matching criteria is met, for example, to drop the packet. There are different types of ACL: MAC ACL, IP ACL, and ARP ACL. MAC ACLs - MAC ACLs are used to filter traffic using the information in the Layer 2 header of each packet. MAC ACLs are by default only applied to non-IP traffic; however, Layer 2 interfaces can be configured to apply MAC ACLs to all traffic. IP ACLs: IP ACLs are ordered sets of rules that can use to filter traffic based on IP information in the Layer 3 header of packets. The device applies IP ACLs only to IP traffic. IP ACL can be IPv4 or IPv6. ARP ACLs - The device applies ARP ACLs to IP traffic. Not every device implements every type of ACL. In addition, device implementations may vary greatly in terms of the filter constructs that they support. Therefore, acl YANG Module makes extensive use of the "feature" construct which allows implementations to support those ACL configuration features that lie within their capabilities. The applying of ACL to device configuration to interfaces and other components is out of the scope of this model. 2. Definitions and Acronyms ACE: Access Control Entry ACL: Access Control List AFI: Address Field Identifier ARP: Address Resolution Protocol Huang & Clemm Expires March 4, 2013 [Page 4] Internet-Draft yang-acl August 2012 CoS: Class of Service DSCP: Differentiated Services Code Point ICMP: Internet Control Message Protocol IGMP: Internet Group Management Protocol IP: Internet Protocol IPv4: Internet Protocol version 4 IPv6: Internet Protocol version 6 MAC: Media Access Control QoS: Quality of Service TCP: Transmission Control Protocol ToS: Type of Service TTL: Time To Live UDP: User Datagram Protocol VLAN: Virtual Local Area Network VRF: Virtual Routing and Forwarding 3. The Design of ACL Data Model The ACL data model consists of five YANG modules. The first module, "acl", defines generic ACL aspects which are common to all ACLs regardless of their type, as well as a set of auxiliary definitions. In effect, the module can be viewed as providing a generic ACL "superclass". Three other modules, "acl-ip", "acl-mac", and "acl-arp" , augment the "acl" module with definitions that are specific to different types of ACLs, specifically, ACLs for IP, MAC, and ARP, respectively. These specifics are for the largest part reflected in the Access Control Entries, that is, the rules which specify the filter criteria that a packet must meet for the rule to be applied, and the actions that are to be taken in case the filter matches. Keeping the modules separate provides for a more modular data model than would be the case if all types were combined into a single monolithic module. Huang & Clemm Expires March 4, 2013 [Page 5] Internet-Draft yang-acl August 2012 Finally, module "common-types" defines types that are used in the ACL data model but are not really specific to ACLs. These definitions could potentially be of interest to other models as well; keeping them in a separate module allows to import these definitions independent of the support for ACLs. The data hierarchy that is defined by the acl module is depicted in the following Figure 1, where brackets enclose list keys, "rw" means configuration, "ro" operational state data, and "?" means optional node. Parentheses enclose choice and case nodes. The structure is a collapsed structure and does not depict all definitions; it is intended to illustrate the overall structure. A fully expanded structure can be found in Data Model Structure Section Section 8. module: acl +--rw acls +--rw acl [name] | +--rw name | +--rw acl-type | +--rw enable-capture-global? | +--rw capture-session-id-global? | +--rw (enable-match-counter-choices)? | +--ro match? | | +--rw port-obj-grp | +--rw port-group [name] | +--rw name | +--rw groups +--rw timerange-obj-grp | +--rw timerange-group [name] | +--rw name | +--rw time-ranges +--rw ip-address-obj-grp rpcs: +--x reset-match-counter +--ro input +--ro name +--ro sequence-num? Figure 1 Data nodes in the acl module are contained under a single container node, acls. This node contains a list, "acl". Each ACL is represented by an list element in that list, which is identified by a name that serves as key to the list. Interfaces (which are not part of the model) to which an ACL is applied can then refer to the ACL using that name. Each acl list element has furthermore a type, as Huang & Clemm Expires March 4, 2013 [Page 6] Internet-Draft yang-acl August 2012 indicated through "acl-type". The acl-type determines which types of ACEs can be can be contained in an ACL. The ACE definitions themselves are provided by the acl-ip, acl-mac, and acl-arp modules, which augment the acl definition in the acl module accordingly. The subsequent data nodes in the acl list allow to configure whether packets that match an ACL should be captured for further analysis. Finally, the list contains an object that maintains a counter of the number of ACL matches. the rpc "reset-match-counter" can be used to reset that counter. port-obj-grp, timerange-obj-grp, ip-address-obj-grp are auxiliary objects used to define groupings of ports and of IP ranges as well as schedule information, respectively. They are in effect convenience objects which allow ACEs to refer to groupings and schedules by name, rather than needing to respecify them in each ACE where they apply. The following figure depicts how different types of ACEs are inserted into that structure. As indicated earlier, the corresponding definitions are provided in separate modules that augment the acl module. In the data structure, the augmenting module is indicate by the prefix of the corresponding data nodes: acl-ip, acl-mac, and acl- arp, respectively. ACEs for IPv4 and for IPv6 are both defined in the same module, acl-ip. While it would have been possible to define each in its own separate module, it was a design decision to combine them, as they share enough commonality that a separation would have resulted in a considerable amount of definition redundancy. The figure does not depict objects not pertinent to that structure, such as the reusable objects, port-obj-grp, timerange-obj-grp, and ip-address-obj-grp, or general objects contained in acl list elements, such as name and enable-capture-global. module: acl +--rw acls +--rw acl [name] | +--rw acl-ip:afi | +--rw acl-ip:ipv6-aces | | +--rw acl-ip:ipv6-ace [sequence-num] | | +--rw acl-ip:sequence-num | | +--rw (remark-or-filter)? | | +--:(remark) | | | +--rw acl-ip:remark | | +--:(filter) | | | +--rw acl-ip:filter | | | +-- filter parameters | | | +--rw acl-ip:actions | | | +-- action parameters | | +-- ro acl-ip:statistics Huang & Clemm Expires March 4, 2013 [Page 7] Internet-Draft yang-acl August 2012 module: acl +--rw acls +--rw acl [name] | +--rw acl-ip:afi | +--rw acl-ip:ipv4-aces | | +--rw acl-ip:ipv4-ace [sequence-num] | | +--rw acl-ip:sequence-num | | +--rw (remark-or-filter)? | | +--:(remark) | | | +--rw acl-ip:remark | | +--:(filter) | | | +--rw acl-ip:filters | | | +-- filter parameters | | | +--rw acl-ip:actions | | | +-- action parameters | | +-- ro acl-ip:match module: acl +--rw acls +--rw acl [name] | +--rw acl-mac:mac-aces | | +--rw acl-mac:mac-ace [sequence-num] | | +--rw acl-mac:sequence-num | | +--rw (remark-or-filter)? | | +--:(remark) | | | +--rw acl-mac:remark | | +--:(filter) | | | +--rw acl-mac:filters | | | +-- filter parameters | | | +--rw acl-mac:actions | | | +-- action parameters | | +-- ro acl-mac:match module: acl +--rw acls +--rw acl [name] | +--rw acl-arp:arp-aces | | +--rw acl-arp:arp-ace [sequence-num] | | +--rw acl-arp:sequence-num | | +--rw (remark-or-filter)? | | +--:(remark) | | | +--rw acl-arp:remark | | +--:(filter) | | | +--rw acl-arp:filters | | | +-- filter parameters | | | +--rw acl-arp:actions | | | +-- action parameters Huang & Clemm Expires March 4, 2013 [Page 8] Internet-Draft yang-acl August 2012 | | +-- ro acl-arp:match Figure 2 As is evident from Figure 2, the same generic design pattern is reflected in every ACL type. Each ACL contains a list of ACEs, identified by a numeric identifier by which ACEs in the list are ordered. (Numeric identifiers do not have to be sequential, but are unique.) Each ACE consists either of a remark or an actual access control rule, i.e. a "filter". Remarks are in effect comment lines inside an ACL that are intended for human or administrator consumption. They are included in the YANG module to maintain consistency with CLI. Access control rules, on the other hand, consist of a left hand side ("filters") that specifies a set of matching criteria and right hand side ("actions") that specifies the action to take when matching criteria are met. An overview of the full list of filter and parameters is given in Section 8. Since the design pattern for each ACL type is the same, an alternative design to the YANG modules would have been to extend the acl module to include the data nodes up to the level depicted in Figure 2, as the real distinction occurs in the filter and action parameters that occur below it. In that case, however, the corresponding data nodes would have had to contend with more complex conditions. The modules defined here aim at keeping compleixty of definitions within the modules as low as possible, at the price of not needing to repeat a few data nodes that provide the overall top level structure. 4. acl Module acl module is a top container module for all acls. It contains a list of named acl. acl-ip, acl-map and acl-arp augment the acl list in acls container. In addition to the acls container, it also defined features, reusable types and reusable grouping. 4.1. Features When it comes to ACL implementation, there is a wide range of capabilities across devices. For example, not every device implements every type of ACL. Some devices may support time-based ACLs that are only in effect during specified times, others may not. In order to accommodate this wide range of capabilities, this data model makes extensive use of the "feature" construct. The defined features allow implementations to declare which capabilities they support, and only support the corresponding portions of the data model. Huang & Clemm Expires March 4, 2013 [Page 9] Internet-Draft yang-acl August 2012 4.2. Types The definition of ACLs requires a number of new data types. The following data types are introduced in this data model. Table 1 has the data types that is unique to acl model. Table 2 has the data types that will reused in other models defined in common-types module. For details of each type, see each typedef descriptions and reference in the model. +----------------------+------------------------------+ | YANG type | base type | +---------------------+-------------------------------+ | Comparator | enumeration | | ACL-Action | enumeration | | IP-Network-Kind | enumeration | | Mac-Network-Kind | enumeration | | Sequence-Number | uint32 | | Remark | string | | Acl-Type-Ref | identityref | | Acl-Ref | leafref | | Port-Group-Ref | leafref | | IP-Address-Group-Ref | leafref | | Time-Range-Ref | leafref | +--------------------- +------------------------------+ Table 1 +----------------------+------------------------------+ | YANG type | base type | +---------------------+-------------------------------+ | Cos | uint8 | | Tos | uint8 | | Precedence | uint8 | | TCP-Flag-Type | enumeration | | Ether-Type | string | | IP-Protocol | uint8 | | IGMP-Code | uint8 | | ICMP-Type | uint32 | | ICMP-Code | uint32 | | Vlan-Identifier | uint16 | | Time-to-Live | uint32 | +--------------------- +------------------------------+ Table 2 Huang & Clemm Expires March 4, 2013 [Page 10] Internet-Draft yang-acl August 2012 4.3. Groupings The data model defines a number of groupings, consisting of sets of objects that are used in multiple places. In order to keep the overview of the data model concise, those groupings are introduced in the following subsections and subsequently referred to by name, rather than expanding groupings in the data model. 4.3.1. PORT-GROUP grouping PORT-GROUP +--rw (port-number-or-range)? +--:(port-number-range) | +--rw port-lower? inet:port-number | +--rw port-upper? inet:port-number +--:(port-number) +--rw comparator Comparator +--rw port? inet:port-number PORT-GROUP has two ways to express a group of ports: Using port-upper and port-lower couple to specify a port range. The value of port-lower must be less or equal to port-upper Using comparator and port couple to specify the port(s). For example: 20 21 eq 80 See Comparator typedef in model appendix for possible comparator values. 4.3.2. MAC-SOURCE-NETWORK grouping MAC-SOURCE-NETWORK +--rw acl-mac:mac-source-kind? MAC-Network-Kind +--rw (source-network)? +--:(address) | +--rw acl-mac:source-address yang:mac-address | +--rw acl-mac:source-address-mask yang:mac-address +--:(host) +--rw acl-mac:source-host-name inet:host Huang & Clemm Expires March 4, 2013 [Page 11] Internet-Draft yang-acl August 2012 MAC-SOURCE-ADDRESS is a reusable grouping. It uses four leaves: mac- source-kind, source-address, source-address-mask and source-host-name to express the three kinds network. any network: use mac-source-kind value any to express any network. any single host network. host my-host host address with a mask. mac 0180.c200.000 0000.0000.0000 4.3.3. MAC-DESTINATION-NETWORK grouping MAC-DESTINATION-NETWORK +--rw acl-mac:mac-destination-kind? MAC-Network-Kind +--rw (dest-network)? +--:(address) | +--rw acl-mac:dest-address yang:mac-address | +--rw acl-mac:dest-address-mask yang:mac-address +--:(host) +--rw acl-mac:dest-host-name inet:host MAC-DESTINATION-ADDRESS is a reusable grouping similar to MAC-SOURCE- ADDRESS. The reason to have both MAC-SOURCE-ADDRESS and MAC- DESTINATION-ADDRESS grouping is to allow source-address and destination-address leaves appear in the same container. For example: mac 0180.c200.000 0000.0000.0000 any Huang & Clemm Expires March 4, 2013 [Page 12] Internet-Draft yang-acl August 2012 4.3.4. IP-ADDRESS-AND-MASK grouping IP-ADDRESS-AND-MASK +--rw ip-address-kind IP-Network-Kind +--rw (mask-or-host)? +--:(mask) | +--rw ip-address inet:ip-address | +--rw ip-mask? inet:ip-prefix +--:(host) | +--rw (ip-host-address)? inet:host IP-ADDRESS-AND-MASK is a reusable grouping. It has four leaves: ip- address-kind, ip-source-address, ip-source-mask and ip-host-address to express the three kinds network. any network. any single host network. host my-host host address with a mask. mac 192.168.1.0 255.255.255.0 4.3.5. IP-SOURCE-NETWORK grouping IP-SOURCE-NETWORK +--rw ip-source-kind IP-Network-Kind +--rw (source-address-host-group)? +--:(address) | +--rw ip-source-address inet:ip-address | +--rw ip-source-mask? inet:ip-prefix +--:(host-name) | +--rw (ip-source-host-address)? inet:host +--:(group) +--rw ip-source-group? IP-Address-Group-Ref IP-SOURCE-NETWORK is a reusable grouping. It has four leaves: ip- address-kind, ip-source-address, ip-source-mask, ip-host-address, and ip-source-group to express the four kinds network. The following are valid instances: Huang & Clemm Expires March 4, 2013 [Page 13] Internet-Draft yang-acl August 2012 ip-source-address is an ip address: ip 192.168.1.0 255.255.255.0 ip-source-address is 'any': any ip-source-address is an 'host' with host-name: host switch1 ip-source-address is an 'host' with host-name: host 192.168.1.2 ip-source-address is an 'group': group Email-Server-IPV4 4.3.6. IP-DESTINATION-NETWORK grouping IP-DESTINATION-NETWORK +--rw ip-dest-kind IP-Network-Kind +--rw (dest-address-host-group)? +--:(address) | +--rw ip-dest-address inet:ip-address | +--rw ip-dest-mask? inet:ip-prefix +--:(host) | +--rw (ip-dest-host-address)? inet:ip-host +--:(group) +--rw ip-dest-group? IP-Address-Group-Ref IP-DESTINATION-ADDRESS is a reusable grouping. Its structure is similar to IP-SOURCE-NETWORK.The reason to have IP-SOURCE-NETWORK and IP-DESTINATION-NETWORK grouping is to allow ip-source-address and ip- destination-address leaves appear in the same container. For example: 192.168.1.0 255.255.255.0 any Huang & Clemm Expires March 4, 2013 [Page 14] Internet-Draft yang-acl August 2012 4.4. Containers 4.4.1. acls Container acls container contains a list of named acl. Each acl contains the following global leaves that applies to acl extensions. acl-arp, acl- mac, and acl-ip extends the list acl. o name o acl-type o capture-session-id-global o enable-match-counter-choices: The difference of these two choices is that enable-match-counter is to collect total match statistics for all aces verus enable-per-entry-match-counter is to collect match statistics for each ace. o match 4.4.2. port-obj-grp Container port-obj-grp allows to classify protocol port into groups. port-obj- grp container is a sequence of port ranges. One port-group can apply to multiple aces. This feature allows multiple ace applies to same port group. The following is Netconf XML examples of port-obj-grp and how it is refered from ace. port-tunnel1 port-tunnel1 gt 8080 Huang & Clemm Expires March 4, 2013 [Page 15] Internet-Draft yang-acl August 2012 4.4.3. timerange-obj-grp Container timerange-obj-grp container is list of named entry. Each entry contains a time-ranges container. Each time-ranges is a sequence of time-range. Each time-range is a remark (comments for the time- range), or an absolute time for start or end or both, or a periodic time for start or end or both. remark is the comments for the time- range that will be kept in the device. Same time-range can be reused in different aces. The following is Netconf XML examples of time- range-entry and how it is referred from ace. weekday 10 email server maintainance 30 Monday Tuesday Wednesday Thursday Friday 21:00:00 24:00:00 4.4.4. ip-address-obj-grp Container ip-address-obj-grp container is list of named ip-address-group. Each ip-address-group is a sequence of ip-address and mask pair or host and host-address pair. Each ipaddress-group can be referred from ace by name. The following is Netconf XML examples of ip-address-group and how it is referred from ace. HR-VM-IPV6 Huang & Clemm Expires March 4, 2013 [Page 16] Internet-Draft yang-acl August 2012 10 ipv6 ip FE80::B3FF:FE1E:8329 128 20 ipv6 host 21DA::2F3B:2AA:FF:FE28:9C5A Email-Server-IPV4 10 ip 128.107.0,0 255.255.0.0 20 ip 139.207.0.0 255.255.0.0 100 ipv6 permit group HR-VM-IPV6 any Huang & Clemm Expires March 4, 2013 [Page 17] Internet-Draft yang-acl August 2012 5. acl-ip module acl-ip is the module that defines IP-ACL. It augments list acl in acl module. 5.1. Groupings 5.1.1. ACTIONS Grouping ACTIONS grouping is a reusable grouping for ace action when there is a match. It has the following leaves: o action: a mandatory leaf when ace filters match and support permit and deny two actions now. o log-choice: enable log when ace filters match. Some device support log-input to have additional input interface in the log message when if-feature is enabled. 5.1.2. SRC-PORT-GROUP grouping SRC-PORT-GROUP +-- (src-ports)? +--rw (port-number-or-range)? | +--:(port-number-range) | | +--rw src-port-lower? inet:port-number | | +--rw src-port-upper? inet:port-number +--:(port-number) | +--rw src-comparator Comparator | +--rw src-port? inet:port-number +-- :(by-name) +--src-port-group-name SRC-PORT-GROUP is a reusable group and allow the following three ways to define a group of ports. o port-number-range: use src-port-lower and src-port-upper two leaves to specify a port range. src-port-lower has to less or equal than src-port-upper. o port-number: use comparator and src-port two leaves to specify a port range. See Comparator typedef in the model for the possible values for comparator leaf. o port range ref: refer to a named port group defined using port- obj-grp. For example: Huang & Clemm Expires March 4, 2013 [Page 18] Internet-Draft yang-acl August 2012 port-tunnel1 5.1.3. DES-PORT-GROUP grouping DES-PORT-GROUP +-- (des-ports)? +--rw (port-number-or-range)? | +--:(port-number-range) | | +--rw des-port-lower? inet:port-number | | +--rw des-port-upper? inet:port-number +--:(port-number) | +--rw des-comparator Comparator | +--rw des-port? inet:port-number +-- :(by-name) +-- des-port-group-name DES-PORT-GROUP is a reusable group and has a similar structure as SRC-PORT-GROUP. The reason to have both SRC-PORT-GROUP and DES-PORT- GROUP is to allow src-port and des-port in the same container.. 80 8080 80 8080 5.1.4. IP-ACE-FILTERS Grouping Huang & Clemm Expires March 4, 2013 [Page 19] Internet-Draft yang-acl August 2012 IP-ACE-FILTERS +--rw acl-ip:protocol? c-types:IP-Protocol +--rw acl-ip:enable-capture? boolean +--rw acl-ip:capture-session-id? uint32 +--rw acl-ip:fragments? empty +--rw acl-ip:time-range? acl:Time-Range-Ref +--SRC-PORT-GROUP + DEST-PORT-GROUP +--rw (packet-length-or-range)? | +--:(length) | | +--rw acl-ip:packet-length-comparator acl:Comparator | | +--rw acl-ip:packet-length uint32 | +--:(range) | +--rw acl-ip:packet-length-upper uint32 | +--rw acl-ip:packet-length-lower uint32 +--rw acl-ip:tcp-flag-value? c-types:TCP-Flag-Type +--rw acl-ip:tcp-flag-mask? c-types:TCP-Flag-Type +--rw acl-ip:tcp-flag-operation? enumeration IP-ACE-FILTERS defines the following leaves that reused by ipv4 and ipv6 ace. o protocol o enable-capture: The ability to configure ACL capture in order to selectively monitor traffic on an interface or VLAN. When the capture option for an ACL rule is enabled, packets that match this rule are either forwarded or dropped based on the specified permit or deny action and may also be copied to an alternate destination port for further analysis. o capture-session-id: This optional leaf only applies when enable- capture is true. o fragments: when presence, it match the non-initial fragment. o time-range: time-range is to enable packet capture on this filter for a timerange-group by name. time-range is Time-Range-Ref type which is a leafref. o SRC-PORT-GROUP: see Section 5.1.2 o DES-PORT-GROUP: see Section 5.1.3 o packet-length-or-range: packet-length-or-range is to match package if the pack length is in the range. It allows two ways to specify packet length range. Huang & Clemm Expires March 4, 2013 [Page 20] Internet-Draft yang-acl August 2012 * case length: this is to use comparator and a single packet- length to specify range. * case range: this is to use packet-length-lower and packet- length-upper to specify a range. The value of packet-length- lower must be lower or equal than the value of packet-length- upper. o tcp-flag-value o tcp-flag-mask o tcp-flag-operation o tcp-flag-value, tcp-flag-mask and tcp-flag-operation combinations is to allow to match any combination of packet tcp flag values. The following example is to match the packet tcp flag ack=1, syn=1, and fin=0; ack syn ack syn fin match-all 5.1.5. IPV4-ACE-GROUP Grouping The following is IPV4-ACE-GROUP tree. IPV4-ACE-GROUP grouping is used in acl list when acl-type is ip-acl. It is not reused in this module but to keep acl list data model concise, so the acl list structure won't be submerged with ACE details. For the definition of acl list, see section acl list Section 4.4.1. Huang & Clemm Expires March 4, 2013 [Page 21] Internet-Draft yang-acl August 2012 +--:IPV4-ACE-GROUP +--rw ipv4-aces +--rw ipv4-ace [sequence-num] +--rw sequence-num Sequence-Number +--rw (remark-or-filter)? +--:(remark) | +--rw remark? string +--:(packet-filter) +--rw filter | +--rw acl-ip:filters | | +--acl:IP-SOURCE-NETWORK | | +--acl:IP-DESTINATION-NETWORK | | +--IP-ACE-FILTERS | | +--rw (dscp-or-tos)? | | +--:(dscp) | | | +--rw dscp? inet:dscp | | +--:(tos) | | +--rw tos? c-types:ToS | | +--rw precedence? c-types:Precedence | +--rw actions | | +--ACTIONS +--ro match? uint64 IPV4-ACE-GROUP contains a sequenced ipv4-ace. 5.1.5.1. ipv4-ace list An ipv4-ace list is set of rules that is used to filter ipv4 traffic on a networking device ordered by sequence-num. An ipv4-ace can be a remark or a-filter. A remark is a comment for the ace that will be keptin the device. A-filter consists of two parts: o Filters: this specifies a set of matching criteria that a packet must satisfy for the rule to be applied. o Actions: this specifies what to do with the packet when the filters are matched, for example, to drop the packet. Here are the filters: o IP-SOURCE-NETWORK: see Section 4.3.5. o IP-DESTINATION-NETWORK: Section 4.3.6 o IP-ACE-FILTERS: see Section 5.1.4 Huang & Clemm Expires March 4, 2013 [Page 22] Internet-Draft yang-acl August 2012 o dscp-or-tos: Section 5.1.5.1.1 5.1.5.1.1. dscp-or-tos choice dscp-or-tos is to match package on the dscp or tos value. case dscp: dscp is to match packet on the dscp value. case tos:This is to match packet on tos and precedence value. ToS and Precedence typedef is defined in common-types which can be deprecated when IETF has a standard ToS and Precedence YANG definition. 5.1.5.1.2. match leaf match: this is an operational data. It maintains the packet matches (hits) on the ace. 5.1.6. IPV6-ACE-GROUP Grouping The following is IPV6-ACE-GROUP tree. IPV6-ACE-GROUP grouping is used in acl list when acl-type is ip-acl. It is not reused in this module but to keep acl list data model concise, so the acl list structure won't be submerged with ACE details. For the definition of acl list, see section acl list Section 4.4.1. +--:IPV6-ACE-GROUP +--rw ipv6-aces +--rw ipv6-ace [sequence-num] +--rw sequence-num Sequence-Number +--rw (remark-or-filter)? +--:(remark) | +--rw remark? string +--:(packet-filter) +--rw filter | +--acl:IP-SOURCE-NETWORK | +--acl:IP-DESTINATION-NETWORK | +--IP-ACE-FILTERS | +--rw (dscp-or-tos)? | | +--:(dscp) | | | +--rw dscp? inet:dscp | +--rw igmp-type? | +--rw actions | | +--ACTIONS +--ro match? uint64 Huang & Clemm Expires March 4, 2013 [Page 23] Internet-Draft yang-acl August 2012 IPV6-ACE-GROUP contains a sequenced ipv6-ace. 5.1.6.1. ipv6-ace list An ip-ace list is a set of rules that is used to filter ipv4 traffic on a networking device ordered by sequence-num. . An ip-ace can be a remark or an ace-filter. A remark is a comment for the ace that will be keptin the device. Same as ipv4-ace, a filter consists of two parts: o Filters: this specifies a set of matching criteria that a packet must satisfy for the rule to be applied. o Actions: this specifies what to do with the packet when the filters are matched, for example, to drop the packet. Here are the filters: IP-SOURCE-NETWORK: see Section 4.3.5. IP-DESTINATION-NETWORK: Section 4.3.6 --IP-ACE-FILTERS: see Section 5.1.4 dscp-or-tos: Section 5.1.6.1.1 igmp-type 5.1.6.1.1. dscp-or-tos choice Different from ipv4, ipv6 dscp-or-tos is to match package on the dscp value. case dscp: dscp is to match packet on the dscp value. 5.1.6.1.2. match leaf match: this is an operational data. It maintains the packet matches (hits) on the ace. 5.2. augment The module "acl-ip" augments the definition of data node "/acl:acls/ acl:acl" with addtional leaves and subcomponents. afi Huang & Clemm Expires March 4, 2013 [Page 24] Internet-Draft yang-acl August 2012 IPV6-ACE-GROUP IPV4-ACE-GROUP global-fragments 5.2.1. global-fragments leaf global-fragments is an optional leaf. It has an enumeration value of not-set, permit-all, deny-all. not-set is the default value. When the global-fragments is permit-all or deny-all, it is to permit or deny the implicit ace fragment filter. Here is an example of implicit ace and how the implicit ace is affected when global- fragments is set. Example 1: The acl configuration from the management interface with global-fragments is absent. Huang & Clemm Expires March 4, 2013 [Page 25] Internet-Draft yang-acl August 2012 YANG instance of this cli configuration: gragment_test1 ipv4 ip-acl 10 permit 1.1.1.1 16 any 20 permit 2.2.2.2 16 any By taking all the leaves value out, the above yang can be express in the following lines: fragment_test1 ip-acl ipv4 10 permit ip 1.1.1.1/16 any 20 permit ip 2.2.2.2/16 any fragment. The acl configuration with implicit ace in the device withwill be: Huang & Clemm Expires March 4, 2013 [Page 26] Internet-Draft yang-acl August 2012 fragment_test1 ip-acl ipv4 10 permit ip 1.1.1.1/16 any 11 permit ip 1.1.1.1/16 any fragment 20 permit ip 2.2.2.2/16 any fragment. 100 deny any any 110 deny any any fragment Notice three lines of configuration are implicit. Example 2: The acl configuration from the management interface with global-fragments gragment_test2 ip-acl deny-all ipv4 10 permit 1.1.1.1 16 any 20 permit 2.2.2.2 16 any The acl configuration in the device with implicit aces. The deny-all void "11 permit ip 1.1.1.1/16 any fragment" ace in previous example. Huang & Clemm Expires March 4, 2013 [Page 27] Internet-Draft yang-acl August 2012 By taking all the leaves value out, the above yang can be express in the following lines: fragment_test2 ip-acl ipv4 deny-all 10 permit ip 1.1.1.1/16 any 20 permit ip 2.2.2.2/16 any fragment. fragment_test2 ip-acl ipv4 10 permit ip 1.1.1.1/16 any 20 permit ip 2.2.2.2/16 any fragment. 100 deny any any 110 deny any any fragment 6. acl-mac module 6.1. MAC-ACE-GROUP group The following is MAC-ACE-GROUP tree. MAC-ACE-GROUP grouping is used in acl list when acl-type is mac-acl. It is not reused in this module but to keep acl list data model concise, so the acl list structure won't be submerged with ACE details. For the definition of acl list, see section acl list Section 4.4.1. MAC-ACE-GROUP +--rw mac-aces +--rw mac-ace [sequence-num] +--rw sequence-num Sequence-Number +--rw (remark-or-ace-filter)? +--:(remark) | +--rw remark Remark +--:(ace-filter) +--rw filter | +--acl:MAC-SOURCE-NETWORK | +--acl:MAC-DESTINATION-NETWORK | +--rw ethertype? c-types:Ether-Type | +--rw ethertype-mask? c-types:Ether-Type | +--rw enable-capture? boolean | +--rw capture-session-id? uint8 | +--rw cos? c-types:CoS | +--rw time-range? Time-Range-Ref | +--rw vlan? c-types:Vlan-Identifier +-- rw actions | +--rw action ACL-Action | +--rw log? boolean +--ro match? uint64 Huang & Clemm Expires March 4, 2013 [Page 28] Internet-Draft yang-acl August 2012 MAC-ACE-GROUP has a mac-aces container. The mac-aces container contains a list of sequenced mac-ace. 6.1.1. mac-ace list A mac-ace list is a set of rules ordere by sequence-num that is used to filter traffic on a networking device using information in layer 2 header. A mac-ace can be a remark or an ace-filter. A remark is a comment for the ace that will be keptin the device. An ace-filter consists of two parts: o Filters: this specifies a set of matching criteria that a packet must satisfy for the rule to be applied. o Actions: this specifies what to do with the packet when the filters are matched, for example, to drop the packet. Here are the filters: MAC-SOURCE-NETWORK: see Section 4.3.2. MAC-DESTINATION-NETWORK: Section 4.3.3 ethertype-mask: see definition in "acl-ip" module. cos time-range: vlan enable-capture capture-session-id The definitions and descriptions of the above leaves can be found in the text of the module "acl-mac" 6.2. augment The module "acl-mac" augments the definition of data node "/acl:acls/ acl:acl" with addtional leaves and subcomponents. 7. acl-arp module Huang & Clemm Expires March 4, 2013 [Page 29] Internet-Draft yang-acl August 2012 7.1. ARP-ACE-GROUP group The following is ARP-ACE-GROUP. ARP-ACE-GROUP. grouping is used in acl list when acl-type is arp-acl. It is not reused in this module but to keep acl list data model concise, so the acl list structure won't be submerged with ACE details. For the definition of acl list, see section acl list Section 4.4.1. ARP-ACE-GROUP has a arp-aces container. The arp-aces container contains a sequenced arp-ace. +--:ARP-ACE-GROUP +--rw arp-aces +--rw arp-ace [sequence-num] +--rw sequence-num Sequence-Number +--rw (remark-or-ace-filter)? +--:(remark) | +--rw remark string +--:(ace-filter) | +--rw filters | +--rw direction? enumeration | +--rw acl:IP-SOURCE-NETWORK | +--rw acl:IP-DESTINATION-NETWORK | +--rw acl:MAC-SOURCE-NETWORK | +--rw acl:MAC-DESTINATION-NETWORK | +--rw enable-capture? boolean | +--rw capture-session-id? uint32 +--rw actions | +--rw action ACL-Action | +--rw log? boolean +--ro match? uint64 7.2. arp-ace list An arp-ace list is a set of rules ordere by sequence-num that is used to filter arp traffic on a networking device. A arp-ace can be a remark or an ace-filter. A remark is a comment for the ace that will be keptin the device. An ace-filter consists of two parts: o Filters: this specifies a set of matching criteria that a packet must satisfy for the rule to be applied. o Actions: this specifies what to do with the packet when the filters are matched, for example, to drop the packet. Here are the filters Huang & Clemm Expires March 4, 2013 [Page 30] Internet-Draft yang-acl August 2012 direction: it is the comments for the ace that will be kept in the device. IP-SOURCE-NETWORK: see Section 4.3.5 IP-DESTINATION-NETWORK: Section 4.3.6 MAC-SOURCE-NETWORK: see Section 4.3.2. MAC-DESTINATION-NETWORK: Section 4.3.3 enable-capture capture-session-id The definitions and descriptions of the above leaves can be found in the text of the module "acl-arp". 7.3. augment The module "acl-arp" augments the definition of data node "/acl:acls/ acl:acl" with addtional leaves and subcomponents. 8. Data Model Structure The combined data model for ACL configuration is structured as follows. "acl" defines the generic components of an acl system. "acl-ip", "acl-mac", "acl-arp" augment the "acl" module with additional data nodes that are needed for ip, mac, and arp acl respectively. module: acl +--rw acls +--rw acl [name] | +--rw name | +--rw acl-type | +--rw enable-capture-global? | +--rw capture-session-id-global? | +--rw (enable-match-counter-choices)? | | +--:(match) | | | +--rw enable-match-counter? | | +--:(per-entry-match) | | +--rw enable-per-entry-match-counter? | +--ro match? | +--rw acl-ip:afi? | +--rw acl-ip:ipv6-aces | | +--rw acl-ip:ipv6-ace [sequence-num] | | +--rw acl-ip:sequence-num Huang & Clemm Expires March 4, 2013 [Page 31] Internet-Draft yang-acl August 2012 | | +--rw (remark-or-filter)? | | +--:(remark) | | | +--rw acl-ip:remark? | | +--:(filter) | | +--rw acl-ip:filters | | | +--rw acl-ip:ip-source-kind | | | +--rw (source-address-host-group)? | | | | +--:(mask) | | | | | +--rw acl-ip:ip-source-address? | | | | | +--rw acl-ip:ip-source-mask | | | | +--:(host-address) | | | | | +--rw acl-ip:ip-source-host-address | | | | +--:(group) | | | | +--rw acl-ip:ip-source-group | | | +--rw acl-ip:ip-dest-kind IP-Network-Kind | | | +--rw (dest-mask-host-group)? | | | | +--:(mask) | | | | | +--rw acl-ip:ip-dest-address? | | | | | +--rw acl-ip:ip-dest-mask? | | | | +--:(host-address) | | | | | +--rw acl-ip:ip-dest-host-address? | | | | +--:(group) | | | | +--rw acl-ip:ip-dest-group? | | | +--rw acl-ip:protocol? | | | +--rw acl-ip:enable-capture? | | | +--rw acl-ip:capture-session-id? | | | +--rw acl-ip:fragments? | | | +--rw acl-ip:time-range? | | | +--rw (src-ports)? | | | | +--:(port-number-range) | | | | | +--rw acl-ip:src-port-lower | | | | | +--rw acl-ip:src-port-upper | | | | +--:(port-number) | | | | | +--rw acl-ip:src-comparator | | | | | +--rw acl-ip:src-port | | | | +--:(port-group-ref) | | | | +--rw acl-ip:src-port-group-name | | | +--rw (des-ports)? | | | | +--:(port-number-range) | | | | | +--rw acl-ip:des-port-lower | | | | | +--rw acl-ip:des-port-upper | | | | +--:(port-number) | | | | | +--rw acl-ip:des-comparator | | | | | +--rw acl-ip:des-port | | | | +--:(port-group-ref) | | | | +--rw acl-ip:des-port-group-name | | | +--rw (packet-length-or-range)? | | | | +--:(length) Huang & Clemm Expires March 4, 2013 [Page 32] Internet-Draft yang-acl August 2012 | | | | | +--rw acl-ip:packet-length-comparator | | | | | +--rw acl-ip:packet-length | | | | +--:(range) | | | | +--rw acl-ip:packet-length-upper | | | | +--rw acl-ip:packet-length-lower | | | +--rw acl-ip:tcp-flag-value? | | | +--rw acl-ip:tcp-flag-mask? | | | +--rw acl-ip:tcp-flag-operation? | | | +--rw (dscp-or-tos)? | | | | +--:(dscp) | | | | +--rw acl-ip:dscp? | | | +--rw acl-ip:igmp-type? | | +--rw acl-ip:actions | | | +--rw acl-ip:action | | | +--rw (log-choice)? | | | +--:(log) | | | | +--rw acl-ip:log? | | | +--:(log-input) | | | +--rw acl-ip:log-input? | | +--ro acl-ip:match? | +--rw acl-ip:ipv4-aces | | +--rw acl-ip:ipv4-ace [sequence-num] | | +--rw acl-ip:sequence-num | | +--rw (remark-or-filter)? | | +--:(remark) | | | +--rw acl-ip:remark | | +--:(filter) | | +--rw acl-ip:filters | | | +--rw acl-ip:ip-source-kind | | | +--rw (source-address-host-group)? | | | | +--:(mask) | | | | | +--rw acl-ip:ip-source-address? | | | | | +--rw acl-ip:ip-source-mask | | | | +--:(host-address) | | | | | +--rw acl-ip:ip-source-host-address | | | | +--:(group) | | | | +--rw acl-ip:ip-source-group | | | +--rw acl-ip:ip-dest-kind | | | +--rw (dest-mask-host-group)? | | | | +--:(mask) | | | | | +--rw acl-ip:ip-dest-address? | | | | | +--rw acl-ip:ip-dest-mask? | | | | +--:(host-address) | | | | | +--rw acl-ip:ip-dest-host-address? | | | | +--:(group) | | | | +--rw acl-ip:ip-dest-group? | | | +--rw acl-ip:protocol? | | | +--rw acl-ip:enable-capture? Huang & Clemm Expires March 4, 2013 [Page 33] Internet-Draft yang-acl August 2012 | | | +--rw acl-ip:capture-session-id? | | | +--rw acl-ip:fragments? | | | +--rw acl-ip:time-range? | | | +--rw (src-ports)? | | | | +--:(port-number-range) | | | | | +--rw acl-ip:src-port-lower | | | | | +--rw acl-ip:src-port-upper | | | | +--:(port-number) | | | | | +--rw acl-ip:src-comparator | | | | | +--rw acl-ip:src-port | | | | +--:(port-group-ref) | | | | +--rw acl-ip:src-port-group-name | | | +--rw (des-ports)? | | | | +--:(port-number-range) | | | | | +--rw acl-ip:des-port-lower | | | | | +--rw acl-ip:des-port-upper | | | | +--:(port-number) | | | | | +--rw acl-ip:des-comparator | | | | | +--rw acl-ip:des-port | | | | +--:(port-group-ref) | | | | +--rw acl-ip:des-port-group-name | | | +--rw (packet-length-or-range)? | | | | +--:(length) | | | | | +--rw acl-ip:packet-length-comparator | | | | | +--rw acl-ip:packet-length uint32 | | | | +--:(range) | | | | +--rw acl-ip:packet-length-upper | | | | +--rw acl-ip:packet-length-lower | | | +--rw acl-ip:tcp-flag-value? | | | +--rw acl-ip:tcp-flag-mask? | | | +--rw acl-ip:tcp-flag-operation? | | | +--rw (dscp-or-tos)? | | | +--:(dscp) | | | | +--rw acl-ip:dscp? | | | +--:(tos) | | | +--rw acl-ip:tos? | | | +--rw acl-ip:precedence? | | +--rw acl-ip:actions | | | +--rw acl-ip:action | | | +--rw (log-choice)? | | | +--:(log) | | | | +--rw acl-ip:log? | | | +--:(log-input) | | | +--rw acl-ip:log-input? | | +--ro acl-ip:match? | +--rw acl-ip:global-fragments? | +--rw acl-mac:mac-aces | | +--rw acl-mac:mac-ace [sequence-num] Huang & Clemm Expires March 4, 2013 [Page 34] Internet-Draft yang-acl August 2012 | | +--rw acl-mac:sequence-num | | +--rw (remark-or-ace-filter) | | +--:(remark) | | | +--rw acl-mac:remark | | +--:(filter) | | +--rw acl-mac:filters | | | +--rw acl-mac:mac-source-kind? | | | +--rw (source-network)? | | | | +--:(address) | | | | | +--rw acl-mac:source-address | | | | | +--rw acl-mac:source-address-mask | | | | +--:(host) | | | | +--rw acl-mac:source-host-name | | | +--rw acl-mac:mac-dest-kind? | | | +--rw (dest-network)? | | | | +--:(address) | | | | | +--rw acl-mac:destination-address | | | | | +--rw acl-mac:destination-address-mask | | | | +--:(host) | | | | +--rw acl-mac:dest-host-name | | | +--rw acl-mac:ethertype? | | | +--rw acl-mac:ethertype-mask? | | | +--rw acl-mac:cos? | | | +--rw acl-mac:time-range? | | | +--rw acl-mac:vlan? | | | +--rw acl-mac:enable-capture? | | | +--rw acl-mac:capture-session-id? | | +--rw acl-mac:actions | | | +--rw acl-mac:action | | | +--rw acl-mac:log? | | +--ro acl-mac:match? | +--rw acl-arp:arp-aces | +--rw acl-arp:arp-ace [sequence-num] | +--rw acl-arp:sequence-num | +--rw (remark-or-ace-filter)? | +--:(remark) | | +--rw acl-arp:remark | +--:(filter) | +--rw acl-arp:filters | | +--rw acl-arp:direction? | | +--rw acl-arp:ip-source-kind | | +--rw (source-address-host-group)? | | | +--:(mask) | | | | +--rw acl-arp:ip-source-address? | | | | +--rw acl-arp:ip-source-mask | | | +--:(host-address) | | | | +--rw acl-arp:ip-source-host-address | | | +--:(group) Huang & Clemm Expires March 4, 2013 [Page 35] Internet-Draft yang-acl August 2012 | | | +--rw acl-arp:ip-source-group | | +--rw acl-arp:ip-dest-kind | | +--rw (dest-mask-length-host-group)? | | | +--:(mask) | | | | +--rw acl-arp:ip-dest-address? | | | | +--rw acl-arp:ip-dest-mask? | | | +--:(host-address) | | | | +--rw acl-arp:ip-dest-host-address? | | | +--:(group) | | | +--rw acl-arp:ip-dest-group? | | +--rw acl-arp:mac-source-kind? | | +--rw (source-network)? | | | +--:(address) | | | | +--rw acl-arp:source-address | | | | +--rw acl-arp:source-address-mask yang:mac-address | | | +--:(host) | | | +--rw acl-arp:source-host-name | | +--rw acl-arp:mac-dest-kind? | | +--rw (dest-network)? | | | +--:(address) | | | | +--rw acl-arp:destination-address | | | | +--rw acl-arp:destination-address-mask | | | +--:(host) | | | +--rw acl-arp:dest-host-name | | +--rw acl-arp:enable-capture? | | +--rw acl-arp:capture-session-id? | +--rw acl-arp:actions | | +--rw acl-arp:action | | +--rw acl-arp:log? | +--ro acl-arp:match? +--rw port-obj-grp | +--rw port-group [name] | +--rw name string | +--rw groups | +--rw groups [sequence-num] | +--rw sequence-num | +--rw (port-number-or-range)? | +--:(port-number-range) | | +--rw port-lower | | +--rw port-upper | +--:(port-number) | +--rw comparator | +--rw port +--rw timerange-obj-grp | +--rw timerange-group [name] | +--rw name string | +--rw time-ranges Huang & Clemm Expires March 4, 2013 [Page 36] Internet-Draft yang-acl August 2012 | +--rw time-range [sequence-num] | +--rw sequence-num | +--rw (range-type)? | +--:(remark) | | +--rw remark? | +--:(absolute) | | +--rw absolute | | +--rw start? | | +--rw end? | +--:(periodic) | +--rw periodic | +--rw weekdays? | +--rw start? | +--rw end? +--rw ip-address-obj-grp +--rw ip-address-group [name] +--rw name +--rw afi? +--rw ip-addresses +--rw ip-address [sequence-num] +--rw sequence-num +--rw ip-address-kind? +--rw (mask-or-host)? +--:(mask) | +--rw ip-address? | +--rw ip-mask +--:(host) +--rw ip-host-address rpcs: +---x reset-match +--ro input +--ro name string +--ro sequence-num? Sequence-Number module: acl-ip module: acl-mac module: acl-arp Figure 3 9. ACL YANG Module This module imports type definitions from [RFC6021]. file "acl@2012-08-30.yang" module acl { namespace "urn:cisco:params:xml:ns:yang:acl"; Huang & Clemm Expires March 4, 2013 [Page 37] Internet-Draft yang-acl August 2012 // replace with IANA namespace when assigned prefix acl; import ietf-inet-types { prefix "inet"; } import ietf-yang-types { prefix "yang"; } organization "IETF NETMOD (NETCONF Data Modeling Language) Working Group"; contact "WG Web: http://tools.ietf.org/wg/netmod/ WG List: netmod@ietf.org WG Chair: David Kessens david.kessens@nsn.com WG Chair: Juergen Schoenwaelder j.schoenwaelder@jacobs-university.de Editor: Lisa Huang yihuan@cisco.com Editor: Alexander Clemm alex@cisco.com"; description "This YANG module defines a component that describing the configuration of Access Control Lists (ACLs). An ACL is an ordered set of rules and actions used to filter traffic. Each set of rules and actions is represented as an Access Control Entries (ACE). Each ACE is evaluated sequentially. When the rule matches then action for that rule is applied to the packet. There are three types of ACL. IP ACLs - IP ACLs are ordered sets of rules that can use to filter traffic based on IP information in the Layer 3 header of packets. The device applies IP ACLs only to IP traffic. IP ACL can be IPv4 or IPv6. Huang & Clemm Expires March 4, 2013 [Page 38] Internet-Draft yang-acl August 2012 MAC ACLs - MAC ACLs are used to filter traffic using the information in the Layer 2 header of each packet. MAC ACLs are by default only applied to non-IP traffic; however, Layer 2 interfaces can be configured to apply MAC ACLs to all traffic. ARP ACLs - The device applies ARP ACLs to IP traffic. This module should be used with acl-ip, acl-arp, or acl-mac depends on what feature the device supports. This YANG module also includes auxiliary definitions that are needed in conjunction with configuration of ACLs, such as reusable containers and references for ports and IP. Terms and Acronyms ACE (ace): Access Control Entry ACL (acl): Access Control List AFI (afi): Authority and Format Identifier (Address Field Identifier) ARP (arp): Address Resolution Protocol IP (ip): Internet Protocol IPv4 (ipv4):Internet Protocol Version 4 IPv6 (ipv6): Internet Protocol Version 6 MAC: Media Access Control TCP (tcp): Transmission Control Protocol TTL (ttl): Time to Live VLAN (vlan): Virtual Local Area Network "; revision 2012-08-31 { description "Initial revision. "; } feature host-by-name { description "The capability to reference a host by name."; Huang & Clemm Expires March 4, 2013 [Page 39] Internet-Draft yang-acl August 2012 } feature log-input { description "The ability to log messages upon the matching of ACLs."; } feature time-to-live { description "The ability to filter packets based on their time-to-live (TTL) value (0 to 255)"; reference "ACL Support for Filtering on TTL Value"; } feature ethertype-mask { description "The ability to fiter packets based on ether-type mask in hex 0x0-0xFFFF."; } feature flow-label { description "The ability to filter packets based on flow lable. The 20-bit Flow Label field in the IPv6 header is used by a source to label packets of a flow. This is an IPv6 ACEs option."; reference "RFC 3697 IPv6 Flow Label Specification"; } feature match-counter { description "The ability to maintain global or local match statistics for each ACL ruels."; } feature port-group { description "The ability to define named groups for lists of ports. "; } feature ip-group-address { description "The ability to define named groups for lists of ip addresses. "; } feature arp-acl { description "The ability to support ARP ACLs."; } feature capture-session-id { Huang & Clemm Expires March 4, 2013 [Page 40] Internet-Draft yang-acl August 2012 description "The ability to configure ACL capture in order to selectively monitor traffic on an interface or VLAN. When the capture option for an ACL rule is enabled, packets that match this rule are either forwarded or dropped based on the specified permit or deny action and may also be copied to an alternate destination port for further analysis. An ACL rule with the capture option can be applied as follows: On a VLAN In the ingress direction on all interfaces In the egress direction on all Layer 3 interfaces The statistics data for the capture-session are capture in the device where the ACL rule applied to."; } feature packet-length { description "The ability to filter packets by packet length"; } identity acl-type { description "Base acl type for all ACL"; } identity mac-acl { base acl-type; description "layer 2 ACL type"; } identity ip-acl { base "acl-type"; description "layer 3 ACL type"; } identity arp-acl { base "acl-type"; description "ARP ACL type"; } /* Types */ typedef Comparator { description "A data type used to express comparator string"; type enumeration { enum "eq" { value 0; description "match only equal to any giving number."; Huang & Clemm Expires March 4, 2013 [Page 41] Internet-Draft yang-acl August 2012 } enum "gt" { value 1; description "match only greater than any giving number."; } enum "lt" { value 2; description "match only lower than any giving number."; } enum "neq" { value 3; description "match only not equal to any giving number"; } } } typedef ACL-Action { description "An enumeration data type to express acl action when match."; type enumeration { enum permit { description "Apply permit action to the traffic"; } enum deny { description "Apply deny action to the traffic"; } } } typedef IP-Network-Kind { description "A enumeration to indicate the network to be expressed as an IP address and mask or simply identify a system as a host, or as a member of a pre-defined address group, or as any system."; type enumeration { enum ip { description "Used with address and mask couple to express network. "; } enum any { description "To express Any network or address. Use the any keyword as an abbreviation Huang & Clemm Expires March 4, 2013 [Page 42] Internet-Draft yang-acl August 2012 for an address and a mask of 0.0.0.0 255.255.255.255. For example: 0.0.0.0/255.255.255.255 means 'any'"; } enum host { description "Used with host address to express a single host Use the host address(or name) combination is the same as an address and mask of address 0.0.0.0. For example: '10.1.1.2/0.0.0.0' is the same as 'host 10.1.1.2'"; } enum group { description "Use the group keyword and group name to refer to a pre-defined address object group which is a list of address and mask."; } } } typedef MAC-Network-Kind { description "A enumeration data type to express the different ways to express network or address "; type enumeration { enum mac { description "Used with address and mask couple to express network."; } enum any { description "To express Any network or address"; } enum host { description " Use the host address combination as an abbreviation for an address and wildcard of address 0.0.0.0"; } } } typedef Sequence-Number { description "An data type based on uint32 to determine the order in which the statements within the access list will be evaluated."; type uint32 { range "1..2147483646"; Huang & Clemm Expires March 4, 2013 [Page 43] Internet-Draft yang-acl August 2012 } } typedef Remark { type string { length "0..100"; } } typedef Acl-Type-Ref { description "This type is used to refer to an Access Control List (ACL) type"; type identityref { base "acl-type"; } } typedef Acl-Ref { description "This type refers to an ACL."; type leafref { path "/acl:acls/acl:acl/acl:name"; } } typedef Port-Group-Ref { description "This type is used to refer to a Portgroup object."; type leafref { path "/acls/port-obj-grp/port-group/name"; } } typedef IP-Address-Group-Ref { description "This type is used to refer to a time range object."; type leafref { path "/acls/ip-address-obj-grp/ip-address-group/name"; } } typedef Time-Range-Ref { description "This type is used to refer to a time range object."; type leafref { path "/acls/timerange-obj-grp/timerange-group/name"; Huang & Clemm Expires March 4, 2013 [Page 44] Internet-Draft yang-acl August 2012 } } grouping PORT-GROUP { description "Using comparator and port, or port-upper and port-lower to specify a port range. "; choice port-number-or-range { case port-number-range { description "Port group includes all ports between port-lower and port-upper (including those)"; leaf port-lower { type inet:port-number; description "Lower Port number."; mandatory true; } leaf port-upper { type inet:port-number; description "Upper Port number."; mandatory true; must "../port-lower <= ../port-upper"; } } case port-number { description "Port group includes all ports that are greater than, greater or equal, less than, less or equal, or not equal the port, per the indicated comparator. It is possible for the port group to be empty (for example, in case a port group that is less than the minimum port number is specified)."; leaf comparator { type Comparator; mandatory true; } leaf port { type inet:port-number; description "Port number."; mandatory true; } } } } Huang & Clemm Expires March 4, 2013 [Page 45] Internet-Draft yang-acl August 2012 /* * MAC-SOURCE-ADDRESS and MAC-DESTINATION-ADDRESS */ grouping MAC-SOURCE-NETWORK { description "MAC address and mask pair for source."; leaf mac-source-kind { type MAC-Network-Kind ; } choice source-network { when "mac-source-kind != 'any'" ; case address { when "mac-source-kind = 'mac'" ; leaf source-address { type yang:mac-address; mandatory true; description "A source MAC address."; } leaf source-address-mask { type yang:mac-address; mandatory true; } } case host { when "mac-source-kind = 'host'" ; leaf source-host-name { type inet:host; mandatory true; } } } } grouping MAC-DESTINATION-NETWORK { description "MAC address and mask pair for destination."; leaf mac-dest-kind { type MAC-Network-Kind ; } choice dest-network { when "mac-dest-kind != 'any'" ; case address { when "mac-dest-kind = 'mac'" ; leaf dest-address { type yang:mac-address; mandatory true; description "A destination MAC address"; } leaf dest-address-mask { type yang:mac-address; Huang & Clemm Expires March 4, 2013 [Page 46] Internet-Draft yang-acl August 2012 mandatory true; } } case host { when "mac-dest-kind = 'host'" ; leaf dest-host-name { type inet:host; mandatory true; } } } } grouping IP-ADDRESS-AND-MASK { description "Reusable IP address and mask pair."; leaf ip-address-kind { type IP-Network-Kind ; } choice mask-or-host { when "ip-address-kind != 'any'"; case mask { when "ip-address-kind = 'ip'" ; leaf ip-address { type inet:ip-address; } leaf ip-mask { type inet:ip-prefix; mandatory true; } } case host { when "ip-address-kind = 'host'"; leaf ip-host-address { type inet:host; mandatory true; } } } } grouping IP-SOURCE-NETWORK { description "Reusable IP address and mask pair."; leaf ip-source-kind { type IP-Network-Kind ; mandatory true; Huang & Clemm Expires March 4, 2013 [Page 47] Internet-Draft yang-acl August 2012 } choice source-address-host-group { when "ip-source-kind != 'any'"; case mask { when "ip-source-kind = 'ip'" ; leaf ip-source-address { type inet:ip-address; } leaf ip-source-mask { type inet:ip-prefix; mandatory true; } } case host { when "ip-source-kind = 'host'"; leaf ip-source-host-address { type inet:host; mandatory true; } } case group { when "ip-source-kind = 'group'"; leaf ip-source-group { type IP-Address-Group-Ref; mandatory true; } if-feature ip-group-address; } } } grouping IP-DESTINATION-NETWORK { description "Reusable IP address and mask pair for destination."; leaf ip-dest-kind { type IP-Network-Kind ; mandatory true; } choice dest-address-host-group { when "ip-dest-kind != 'any'"; case mask { when "ip-dest-kind = 'ip'" ; leaf ip-dest-address { type inet:ip-address; } leaf ip-dest-mask { type inet:ip-prefix; Huang & Clemm Expires March 4, 2013 [Page 48] Internet-Draft yang-acl August 2012 } } case host-address { when "ip-dest-address = 'host'"; leaf ip-dest-host-address { type inet:host; } } case group { when "ip-dest-address = 'group'"; leaf ip-dest-group { type IP-Address-Group-Ref; } } } } container acls { description "This is the top container that contains a list of named ACL and reusable acl object groups."; list acl { key name; leaf name { description "ACL/access group name."; type string; } leaf acl-type { type Acl-Type-Ref; description "Type of ACL"; mandatory true; } leaf enable-capture-global{ type boolean; description "Enable packet capture on this filter for this session. Session ID range is 1 to 48"; default "false"; } leaf capture-session-id-global { when "../enable-capture-global = 'true'"; type uint32 { range "1..48"; } if-feature capture-session-id; description "Enable packet capture on this filter for this session. Session ID range is 1 to 48"; } Huang & Clemm Expires March 4, 2013 [Page 49] Internet-Draft yang-acl August 2012 choice enable-match-counter-choices { if-feature match-counter; case match { leaf enable-match-counter { type boolean; description "Eanble to collect statistics for the ACL"; default false; } } case per-entry-match { leaf enable-per-entry-match-counter { type boolean; description "Enable to collect match statistics for each ACL entry(ACE)."; default false; } } } leaf match { if-feature match-counter; config false; type uint64; description "The total packet that have matched for the particular access list"; } } container port-obj-grp { list port-group { //CLI: object-group ip port foogroup key "name"; leaf name { type string; } container groups { list groups { key "sequence-num"; leaf sequence-num { type Sequence-Number; } //unique "comparator port-number //port-lower port-upper"; uses PORT-GROUP; } } Huang & Clemm Expires March 4, 2013 [Page 50] Internet-Draft yang-acl August 2012 } } container timerange-obj-grp { description "Define time range entries to restrict the access. The time range is identified by a name and then referenced by a function, so that those time restrictions are imposed on the function itself."; list timerange-group { key "name"; leaf name { type string; mandatory true; } container time-ranges { list time-range { key "sequence-num"; leaf sequence-num { type Sequence-Number; mandatory true; description "Sequence number. This number determines the order of the statements in the timerange list. Range is 1 to 2147483646. "; } choice range-type { case remark { leaf remark { type string; description "The remark is the comments about each time range which is to make the time range entry easier for the network administrator to understand"; } } case absolute { container absolute { description "Absolute time and date that the associated function starts going into effect."; leaf start { type yang:date-and-time; Huang & Clemm Expires March 4, 2013 [Page 51] Internet-Draft yang-acl August 2012 description "Absolute start time and date"; } leaf end { type yang:date-and-time; description "Absolute end time and date"; } } } case periodic { container periodic { description "To specify a periodic time and date."; leaf weekdays { type bits { bit Sunday { position 0; } bit Monday { position 1; } bit Tuesday { position 2; } bit Wednesday { position 3; } bit Thursday { position 4; } bit Friday { position 5; } bit Saturday { position 6; } } } leaf start { type yang:timestamp; description "Start time"; } leaf end { type yang:timestamp; description "End time"; Huang & Clemm Expires March 4, 2013 [Page 52] Internet-Draft yang-acl August 2012 } } } } } } } } container ip-address-obj-grp { description "This contains a list of named ip address group. Each group defines a range of address and mask pair."; list ip-address-group { key "name"; leaf name { type string; } leaf afi { default "ipv4"; type inet:ip-version; description "Address Field Identifier (AFI)."; } container ip-addresses { list ip-address { key "sequence-num"; leaf sequence-num { type Sequence-Number; mandatory true; description "Sequence number. This number determines the order of the statements in the timerange list. Range is 1 to 2147483646. "; } uses IP-ADDRESS-AND-MASK ; //unique "ip-address ip-mask"; //unique "ip-host-address"; } } } } } rpc reset-match-counter { description "This RPC is to reset the statistics for the ACL matches. Huang & Clemm Expires March 4, 2013 [Page 53] Internet-Draft yang-acl August 2012 When name is the only input, it clears ACL match statistics and individual ACE match statistics. When name and sequence-numer are both inputs, it clears the ACE match statistics."; input { leaf name { type string; mandatory true; description "This name is the acl name."; } leaf sequence-num { type Sequence-Number; description "This number is the ACE sequence-num."; } } } } 10. ACL-IP YANG Module This module imports type definitions from [RFC6021] and common-types yang defined with acl model. module acl-ip { namespace "urn:cisco:params:xml:ns:yang:acl-ip"; // replace with IANA namespace when assigned prefix acl-ip; import acl { prefix acl; } import ietf-inet-types { prefix "inet"; } import common-types { prefix "c-types"; } organization "IETF NETMOD (NETCONF Data Modeling Language) Working Group"; contact Huang & Clemm Expires March 4, 2013 [Page 54] Internet-Draft yang-acl August 2012 "WG Web: http://tools.ietf.org/wg/netmod/ WG List: netmod@ietf.org WG Chair: David Kessens david.kessens@nsn.com WG Chair: Juergen Schoenwaelder j.schoenwaelder@jacobs-university.de Editor: Lisa Huang yihuan@cisco.com Editor: Alexander Clemm alex@cisco.com"; description "This YANG module augments the 'acl' module with configuration and operational data for IPv4 and IPv6 access control list. An ACL is an ordered set of rules and actions used to filter traffic. Each set of rules and actions is represented as an Access Control Entries (ACE). Each ACE is evaluated sequentially. When the rule matches then action for that rule is applied to the packet. IP ACLs are ordered sets of rules that can use to filter traffic based on IP information in the Layer 3 header of packets. The device applies IP ACLs only to IP traffic. IP ACL can be IPv4 or IPv6. Terms and Acronyms ACE (ace): Access Control Entry ACL (acl): Access Control List AFI (afi): Authority and Format Identifier (Address Field Identifier) DSCP (dscp): Differentiated Services Code Point ICMP (icmp): Internet Control Message Protocol IGMP (igmp): Internet Group Management Protocol IP (ip): Internet Protocol Huang & Clemm Expires March 4, 2013 [Page 55] Internet-Draft yang-acl August 2012 IPv4 (ipv4):Internet Protocol Version 4 IPv6 (ipv6): Internet Protocol Version 6 QoS: Quality of Service TCP (tcp): Transmission Control Protocol ToS (tos): Type of Service TTL (ttl): Time to Live UDP (udp): User Datagram Protocol VLAN (vlan): Virtual Local Area Network VRF(vrf) : Virtual Routing and Forwarding "; revision 2012-08-31 { description "Initial revision. "; } grouping ACTIONS { leaf action { type acl:ACL-Action; mandatory true; description "Permit/deny action."; } choice log-choice { case log { leaf log { type empty; description "Causes an informational logging message about the packet that matches the entry to be sent to the console."; } } case log-input { leaf log-input { type empty; if-feature acl:log-input; description "Provides the same function as the enable-log leaf, except that the logging message also Huang & Clemm Expires March 4, 2013 [Page 56] Internet-Draft yang-acl August 2012 includes the input interface"; } } } } grouping SRC-PORT-GROUP { description "Using comparator and port, or port-upper and port-lower to specify a port range. "; choice src-ports { case port-number-range { description "Port group includes all ports between port-lower and port-upper (including those)"; leaf src-port-lower { type inet:port-number; description "Lower Port number."; mandatory true; } leaf src-port-upper { type inet:port-number; description "Upper Port number."; mandatory true; must "../src-port-lower <= ../src-port-upper"; } } case port-number { description "Port group includes all ports that are greater than, greater or equal, less than, less or equal, or not equal the port, per the indicated comparator. It is possible for the port group to be empty (for example, in case a port group that is less than the minimum port number is specified)."; leaf src-comparator { type acl:Comparator; mandatory true; } leaf src-port { type inet:port-number; description "Port number."; mandatory true; } } case port-group-ref { Huang & Clemm Expires March 4, 2013 [Page 57] Internet-Draft yang-acl August 2012 if-feature acl:port-group; leaf src-port-group-name { type acl:Port-Group-Ref; mandatory true; description "Reference a port group by the Port Group name."; } } } } grouping DES-PORT-GROUP { description "Using comparator and port, or port-upper and port-lower to specify a port range. "; choice des-ports { case port-number-range { description "Port group includes all ports between port-lower and port-upper (including those)"; leaf des-port-lower { type inet:port-number; description "Lower Port number."; mandatory true; } leaf des-port-upper { type inet:port-number; description "Upper Port number."; mandatory true; must "../des-port-lower <= ../des-port-upper"; } } case port-number { description "Port group includes all ports that are greater than, greater or equal, less than, less or equal, or not equal the port, per the indicated comparator. It is possible for the port group to be empty (for example, in case a port group that is less than the minimum port number is specified)."; leaf des-comparator { type acl:Comparator; mandatory true; } leaf des-port { type inet:port-number; description "Port number."; mandatory true; } Huang & Clemm Expires March 4, 2013 [Page 58] Internet-Draft yang-acl August 2012 } case port-group-ref { if-feature acl:port-group; leaf des-port-group-name { type acl:Port-Group-Ref; mandatory true; description "Reference a port group by the Port Group name."; } } } } grouping IP-ACE-FILTERS { leaf protocol { type c-types:IP-Protocol; description "IP protocol number."; } leaf enable-capture { type boolean ; description "Enable packet capture on this filter for this session."; } leaf capture-session-id { when "../enable-capture = 'true'"; type uint32 { range "1..48"; } description "Enable packet capture on this filter for this session id."; if-feature acl:capture-session-id; } leaf fragments { type empty; description "Check non-initial fragments"; } leaf time-range { type acl:Time-Range-Ref; description "Refer a time range object by name (Max Size 64)."; } uses SRC-PORT-GROUP { when Huang & Clemm Expires March 4, 2013 [Page 59] Internet-Draft yang-acl August 2012 "../protocol = '6' or ../protocol = '17' or ../protocol = '132'"; description "Apply only when the protocol is TCP, UDP or SCTP."; } uses DES-PORT-GROUP { when "../protocol = '6' or ../protocol = '17' or ../protocol = '132'"; description "Apply only when the protocol is TCP, UDP or SCTP."; } leaf icmp-type { when "../protocol = '1'"; type c-types:ICMP-Type; description "ICMP message type number. Apply only when the protocol is icmp"; } leaf icmp-code { when "boolean(../icmp-type) "; type c-types:ICMP-Code; description "ICMP subtype for a given icmp type."; } choice packet-length-or-range { if-feature acl:packet-length; case length { leaf packet-length-comparator { type acl:Comparator; description "Operant that compare the packet length. Operands are lt (less than), gt (greater than), eq (equal), and neq (not equal)."; mandatory true; } leaf packet-length { type uint32 { range "20..9210"; } Huang & Clemm Expires March 4, 2013 [Page 60] Internet-Draft yang-acl August 2012 description "Packet legth value for operation gt, eq, etc, other than range"; mandatory true; } } case range { leaf packet-length-upper { type uint32 { range "20..9210"; } description "Upper Packet legth"; mandatory true; } leaf packet-length-lower { type uint32 { range "20..9210"; } description "Lower packet length"; must "number(../packet-length-lower) <= number(../packet-length-upper)"; mandatory true; } description "Packet operater 'range' takes both lower and upper value."; } } leaf tcp-flag-value { type c-types:TCP-Flag-Type ; description "TCP flag bits that needs to be checked"; } leaf tcp-flag-mask { when "boolean(../tcp-flag-value)" ; type c-types:TCP-Flag-Type ; description "TCP flag bit that needs to be checked"; } leaf tcp-flag-operation { when "boolean(../tcp-flag-value)" ; description "TCP flag Match option. A match occurs if the TCP datagram has certain TCP flags set or not set. You use the Huang & Clemm Expires March 4, 2013 [Page 61] Internet-Draft yang-acl August 2012 match-any keyword to allow a match to occur if any of the specified TCP flags are present, or you can use the match-all keyword to allow a match to occur only if all of the specified TCP flags are present. You must follow the match-any and match-all keywords with the + or - keyword and the flag-name argument to match on one or more TCP flags. "; default match-any; type enumeration { enum match-any { description "match any"; } enum match-all { description "match all"; } } } choice ttl-value-or-range { if-feature acl:time-to-live; case value { leaf ttl-comparator { type Comparator; description "Compares the TTL value in the packet to the TTL value specified in this ACE statement. Operands are lt (less than), gt (greater than), and eq (equal), neq (not equal)."; } leaf ttl-value { type c-types:Time-to-Live; } } case range { leaf ttl-value-lower { type c-types:Time-to-Live; description "Lower ttl number."; } leaf ttl-value--upper { type c-types:Time-to-Live; description "Upper ttl number."; Huang & Clemm Expires March 4, 2013 [Page 62] Internet-Draft yang-acl August 2012 } } } } grouping IPV4-ACE-GROUP { description "Layer 3 Access Control Entry (ACE)."; container ipv4-aces { description " The ip-aces container contains a list of ip-ace. Each ip-ace is made of a sequence number and a choice of remark(comment) or filter. The filter requires a mandatory action (permit/deny) and one or more options such as source-address with mask,ttl etc"; list ipv4-ace { key "sequence-num"; description "Layer 3 Access Control Element (ACE)"; leaf sequence-num { type acl:Sequence-Number; description "This number determines the order in which the statements within the access list will be evaluated."; } choice remark-or-filter { case remark { leaf remark { type acl:Remark; mandatory true; description "A remark is a comment that can be inserted into an ACL in order to make the access list easier for the network administrator to understand. It is retained to facilitate co-existence with CLI."; } } case filter { container filters { uses acl:IP-SOURCE-NETWORK; uses acl:IP-DESTINATION-NETWORK; uses IP-ACE-FILTERS ; Huang & Clemm Expires March 4, 2013 [Page 63] Internet-Draft yang-acl August 2012 choice dscp-or-tos { case dscp { leaf dscp { type inet:dscp; description "Match packets with given dscp value"; } } case tos { leaf tos { type c-types:ToS; description "Match packets with given TOS value"; } leaf precedence { when "boolean(../tos)" ; type c-types:Precedence; description "Match packets with given precedence value"; } } } } container actions { uses ACTIONS ; } leaf match { config false; type uint64; description "The total packet that have matched for the particular ACE"; } } } } } } grouping IPV6-ACE-GROUP { description "Layer 3 Access Control Entry (ACE)."; Huang & Clemm Expires March 4, 2013 [Page 64] Internet-Draft yang-acl August 2012 container ipv6-aces { description " The ip-aces container contains a list of ip-ace. Each ip-ace is made of a sequence number and a choice of remark(comment) or filter. The filter requires a mandatory action (permit/deny) and one or more options such as source-address with mask,ttl etc"; list ipv6-ace { key "sequence-num"; description "Layer 3 Access Control Element (ACE)"; leaf sequence-num { type acl:Sequence-Number; description "This number determines the order in which the statements within the access list will be evaluated."; } choice remark-or-filter { case remark { leaf remark { type string { length "0..100"; } description "The remark is the comments about each acl which is to make the access list easier for the network administrator to understand."; } } case filter { container filters { uses acl:IP-SOURCE-NETWORK; uses acl:IP-DESTINATION-NETWORK; uses IP-ACE-FILTERS ; choice dscp-or-tos { case dscp { leaf dscp { type inet:dscp; description "Match packets with given dscp value"; } } } Huang & Clemm Expires March 4, 2013 [Page 65] Internet-Draft yang-acl August 2012 leaf igmp-type { when "../protocol = '2' "; type c-types:IGMP-Code; description "IGMP message type (0 to 15) for filtering IGMP packets. Apply only when the protocol is igmp in ipv4"; } leaf flow-label { when "../protocol = '17'"; type uint64 { range "0..1048575"; } description "Flow label value. Apply only when the protocol is UDP in ipv6."; reference "RFC3697 IPv6 Flow Label Specification"; if-feature acl:flow-label; } } container actions { uses ACTIONS ; } leaf match { config false; type uint64; description "The total packet that have matched for the particular ACE"; } } } } } } augment "/acl:acls/acl:acl" { Huang & Clemm Expires March 4, 2013 [Page 66] Internet-Draft yang-acl August 2012 when "acl:acl-type = 'ip-acl'"; leaf afi { type inet:ip-version ; default "ipv4"; } uses IPV6-ACE-GROUP { when "../afi = 'ipv6'" ; } uses IPV4-ACE-GROUP { when "../afi = 'ipv4'" ; } leaf global-fragments { default "not-set"; type enumeration { enum not-set; enum permit-all { description "Allow all fragments"; } enum deny-all { description "Drop all fragments"; } } description "Optimizes fragment handling for noninitial fragments. When this leaf is set to 'permit-all', noninitial fragments willbe permitted unless explicitly denied. When this leaf is set to 'deny-all', noninitial fragments will be denied unless explicitly permitted. "; } } } 11. ACL-MAC Configuration YANG Module This module imports type definitions from common-types YANG defined in this model. module acl-mac { namespace "urn:cisco:params:xml:ns:yang:acl-mac"; // replace with IANA namespace when assigned prefix acl-mac; Huang & Clemm Expires March 4, 2013 [Page 67] Internet-Draft yang-acl August 2012 import acl { prefix acl; } import common-types { prefix "c-types"; } organization "IETF NETMOD (NETCONF Data Modeling Language) Working Group"; contact "WG Web: http://tools.ietf.org/wg/netmod/ WG List: netmod@ietf.org WG Chair: David Kessens david.kessens@nsn.com WG Chair: Juergen Schoenwaelder j.schoenwaelder@jacobs-university.de Editor: Lisa Huang yihuan@cisco.com Editor: Alexander Clemm alex@cisco.com"; description "This YANG module augments the 'acl' module with configuration and operational data for MAC access control list An ACL is an ordered set of rules and actions used to filter traffic. Each set of rules and actions is represented as an Access Control Entries (ACE). Each ACE is evaluated sequentially. When the rule matches then action for that rule is applied to the packet. MAC ACLs - MAC ACLs are used to filter traffic using the information in the Layer 2 header of each packet. MAC ACLs are by default only applied to non-IP traffic; however, Layer 2 interfaces can be configured to apply MAC ACLs to all traffic. Terms and Acronyms ACE (ace): Access Control Entry ACL (acl): Access Control List AFI (afi): Authority and Format Identifier (Address Field Identifier) Huang & Clemm Expires March 4, 2013 [Page 68] Internet-Draft yang-acl August 2012 CoS (cos): Class of Service MAC: Media Access Control TTL (ttl): Time to Live VLAN (vlan): Virtual Local Area Network VRF(vrf) : Virtual Routing and Forwarding "; revision 2012-08-31 { description "Initial revision. "; } /* Layer 2 ACL */ grouping MAC-ACE-GROUP { description "Layer 2 Access Control Entry (ACE). The mac-aces container contains a list of mac-ace. Each mac-ace is comprised of a sequence number and a choice of remark (comment) or a rule. A rule is referred to as 'packet-filter', although it contains both a filter and an action. The packet-filter requires a mandatory action (permit/deny) and one or more options such as source-address with mask, ethertype, vlan etc."; container mac-aces { list mac-ace { key sequence-num; leaf sequence-num { type acl:Sequence-Number; description "This number determines the order in which the ace within the access list will be evaluated."; } choice remark-or-ace-filter { mandatory true; case remark { leaf remark { type acl:Remark; mandatory true; description "A remark is a comment that can be inserted into an ACL in order to make the access list easier for the network administrator to understand. Huang & Clemm Expires March 4, 2013 [Page 69] Internet-Draft yang-acl August 2012 It is retained to facilitate co-existence with CLI."; } } case filter { container filters { uses acl:MAC-SOURCE-NETWORK; uses acl:MAC-DESTINATION-NETWORK; leaf ethertype { type c-types:Ether-Type; description "Ether-Type (also known as protocol) in hex 0x0-0xffff"; } leaf ethertype-mask { when "boolean(../ethertype)"; type c-types:Ether-Type; default "0x0000"; description "Ether-type mask in hex 0x0-0xFFFF. 0x0 is exactly match of the Ethertype.."; if-feature acl:ethertype-mask; } leaf cos { type c-types:CoS; description "CoS value <0-7>"; } leaf time-range { type acl:Time-Range-Ref; description "Enable packet capture on this filter for a specify time range by name (Max name string size 64)."; } leaf vlan { type c-types:Vlan-Identifier; description "VLAN number"; } leaf enable-capture { type boolean ; description Huang & Clemm Expires March 4, 2013 [Page 70] Internet-Draft yang-acl August 2012 "Enable packet capture on this filter for this session."; } leaf capture-session-id { type uint8 { range "1..48"; } description "Enable packet capture on this filter for this session."; if-feature acl:capture-session-id; } } container actions { leaf action { type acl:ACL-Action; mandatory true; description "Permit/deny action."; } leaf log { type boolean; default false; description "Causes an informational logging message about the packet that matches the entry to be sent to the console."; } } leaf match { config false; type uint64; description "The total packets number that have matched for the particular ACE"; } } } } } } augment "/acl:acls/acl:acl" { when "acl:acl-type = 'mac-acl'"; uses MAC-ACE-GROUP; } Huang & Clemm Expires March 4, 2013 [Page 71] Internet-Draft yang-acl August 2012 } 12. ACL-ARP Configuration YANG Module module acl-arp { namespace "urn:cisco:params:xml:ns:yang:acl-arp"; // replace with IANA namespace when assigned prefix acl-arp; import acl { prefix acl; } organization "IETF NETMOD (NETCONF Data Modeling Language) Working Group"; contact "WG Web: http://tools.ietf.org/wg/netmod/ WG List: netmod@ietf.org WG Chair: David Kessens david.kessens@nsn.com WG Chair: Juergen Schoenwaelder j.schoenwaelder@jacobs-university.de Editor: Lisa Huang yihuan@cisco.com Editor: Alexander Clemm alex@cisco.com"; description "This YANG module augments the 'acl' module with configuration and operational data for ARP access control list An ACL is an ordered set of rules and actions used to filter traffic. Each set of rules and actions is represented as an Access Control Entries (ACE). Each ACE is evaluated sequentially. When the rule matches then action for that rule is applied to the packet. ARP ACLs - The device applies ARP ACLs to IP traffic. Terms and Acronyms Huang & Clemm Expires March 4, 2013 [Page 72] Internet-Draft yang-acl August 2012 ACE (ace): Access Control Entry ACL (acl): Access Control List ARP (arp): Address Resolution Protocol IP (ip): Internet Protocol MAC: Media Access Control VLAN (vlan): Virtual Local Area Network "; revision 2012-08-31 { description "Initial revision. "; } grouping ARP-ACE-GROUP { description "ARP Access Control Entry (ACE)."; container arp-aces { list arp-ace { key "sequence-num"; leaf sequence-num { type acl:Sequence-Number; mandatory true; description "This number determines the order in which the statements within the access list will be evaluated."; } choice remark-or-ace-filter { case remark { leaf remark { mandatory true; type acl:Remark; description "A remark is a comment that can be inserted into an ACL in order to make the access list easier for the network administrator to understand. It is retained to facilitate co-existence with CLI."; } } case filter { container filters { leaf direction { default "bi-direction"; type enumeration { Huang & Clemm Expires March 4, 2013 [Page 73] Internet-Draft yang-acl August 2012 enum bi-direction; enum request; enum response; } description "ARP request/response."; } uses acl:IP-SOURCE-NETWORK; uses acl:IP-DESTINATION-NETWORK { when "../direction = 'response'"; } uses acl:MAC-SOURCE-NETWORK; uses acl:MAC-DESTINATION-NETWORK { when "../direction = 'response'"; } leaf enable-capture { type boolean ; description "Enable packet capture on this filter for this session."; } leaf capture-session-id { type uint32 { range "1..48"; } description "Enable packet capture on this filter for this session. Session ID range is 1 to 48"; } } container actions { leaf action { type acl:ACL-Action; mandatory true; description "Permit/deny on match"; } leaf log { type boolean; default false; description "Log on match"; } } leaf match { config false; Huang & Clemm Expires March 4, 2013 [Page 74] Internet-Draft yang-acl August 2012 type uint64; description "The total packet that have matched for the particular ACE"; } } } } } } augment "/acl:acls/acl:acl" { when "acl:acl-type = 'arp-acl'"; uses ARP-ACE-GROUP; } } 13. COMMON-TYPES YANG Module module common-types { namespace "urn:cisco:params:xml:ns:yang:common-types"; // replace with IANA namespace when assigned prefix c-types; organization "IETF NETMOD (NETCONF Data Modeling Language) Working Group"; contact "WG Web: http://tools.ietf.org/wg/netmod/ WG List: netmod@ietf.org WG Chair: David Kessens david.kessens@nsn.com WG Chair: Juergen Schoenwaelder j.schoenwaelder@jacobs-university.de Editor: Lisa Huang yihuan@cisco.com Editor: Alexander Clemm alex@cisco.com"; description "This module contains a collection of generally useful YANG types that are required by YANG modules for the Huang & Clemm Expires March 4, 2013 [Page 75] Internet-Draft yang-acl August 2012 management of ACLs, yet not specific to ACLs. Terms and Acronyms CoS (cos): Class of Service ICMP (icmp): Internet Control Message Protocol IGMP (igmp): Internet Group Management Protocol IP (ip): Internet Protocol IPv4 (ipv4):Internet Protocol Version 4 IPv6 (ipv6): Internet Protocol Version 6 TCP (tcp): Transmission Control Protocol ToS (tos): Type of Service TTL (ttl): Time to Live UDP (udp): User Datagram Protocol VLAN (vlan): Virtual Local Area Network "; revision 2012-08-31 { description "Initial revision. "; } typedef CoS{ type uint8 { range "0..7"; } description "Class of Service. An integer that is in the range of the layer 2 CoS values. This corresponds to the 802.1p and ISL CoS values."; reference "IEEE 802.1p"; } typedef ToS{ type uint8 { range "0..15"; } description "ToS stands for Type of service . The ToS field are five bits in the IPv4 header. It could specify a datagrams priority and Huang & Clemm Expires March 4, 2013 [Page 76] Internet-Draft yang-acl August 2012 request a route for low-delay, high-throughput, or highly-reliable service. Based on these TOS values, a packet would be placed in an prioritized outgoing queue, or take a route with appropriate latency, throughput, or reliability. The following are TOS field values (expressed as binary numbers): 1000 -- minimize delay 0100 -- maximize throughput 0010 -- maximize reliability 0001 -- minimize monetary cost 0000 -- normal service ."; reference "RFC 791 Internet Protocol Protocol Specification RFC 1122 Requirements for Internet Hosts -- Communication Layers RFC 1349 Type of Service in the Internet Protocol Suite RFC 2474 Definition of the Differentiated Services Field (DS Field) in the IPv4 and IPv6 Headers RFC 3168 The Addition of Explicit Congestion Notification (ECN) to IP "; } typedef Precedence{ type uint8 { range "0..7"; } description "Indicates the IP precedence. Precedence is three bits in IP header. Value Description ------------------- 000 (0) Routine or Best Effort 001 (1) Priority 010 (2) Immediate 011 (3) Flash - mainly used for Voice Signaling or for Video. Huang & Clemm Expires March 4, 2013 [Page 77] Internet-Draft yang-acl August 2012 100 (4) Flash Override 101 (5) Critical -mainly used for Voice RTP. 110 (6) Internet 111 (7) Network"; reference "RFC 791 Internet Protocol Chapter 3.1 Protocol Specification"; } typedef TCP-Flag-Type{ description ""; type bits { bit fin { position 0; description "No more data from sender"; } bit syn { position 1; description "Synchronize sequence numbers"; } bit rst { position 2; description "Reset the connection"; } bit psh { position 3; description "Push Function"; } bit ack { position 4; description "Acknowledgment field significant"; } bit urg { position 5; description "Urgent Pointer field significant"; } } reference "RFC 793 TRANSMISSION CONTROL PROTOCOL"; } typedef Ether-Type { type string { pattern '0x[0-9a-fA-F]{4}'; } description "EtherType is 0x0-0xffff. The protocol number is a four-byte hexadecimal number prefixed with 0x. Huang & Clemm Expires March 4, 2013 [Page 78] Internet-Draft yang-acl August 2012 Valid protocol numbers are from 0x0 to 0xffff. This list shows the EtherType values and their corresponding protocol keywords: 0x0600 xns-idp Xerox XNS IDP 0x0BAD vines-ip Banyan VINES IP 0x0baf vines-echo Banyan VINES Echo 0x6000 etype-6000 DEC unassigned, experimental 0x6001 mop-dump DEC Maintenance Operation Protocol (MOP) Dump/Load Assistance 0x6002 mop-console DEC MOP Remote Console 0x6003 decnet-iv DEC DECnet Phase IV Route 0x6004 lat DEC Local Area Transport (LAT) 0x6005 diagnostic DEC DECnet Diagnostics 0x6007 lavc-sca DEC Local-Area VAX Cluster (LAVC), SCA 0x6008 amber DEC AMBER 0x6009 mumps DEC MUMPS 0x0800 ip Malformed, invalid, or deliberately corrupt IP frames 0x8038 dec-spanning DEC LANBridge Management 0x8039 dsm DEC DSM/DDP 0x8040 netbios DEC PATHWORKS DECnet NETBIOS Emulation 0x8041 msdos DEC Local Area System Transport 0x8042 etype-8042 DEC unassigned 0x809B appletalk Kinetics EtherTalk (AppleTalk over Ethernet) 0x80F3 aarp Kinetics AppleTalk Address Resolution Protocol (AARP) Huang & Clemm Expires March 4, 2013 [Page 79] Internet-Draft yang-acl August 2012 bpdu-sap BPDU SAP encapsulated packets bpdu-snap BPDU SNAP encapsulated packets ipx-arpa IPX Advanced Research Projects Agency (ARPA) ipx-non-arpa IPX non arpa lacp Link Aggregation Control Protocol(LACP) encapsulated packets pagp Port Aggregation Protocol(PAGP) encapsulated packets vtp VTP packets "; } typedef IP-Protocol { type uint8{ range "0..255"; } description "The Internet Protocol (IP) is the principal communications protocol used for relaying datagrams (also known as network packets) across an internetwork using the Internet Protocol Suite. IP protocol number value is 0 to 255. It is an 8 bit field in the packet header"; reference "IANA Protocol Numbers RFC5237 IANA Allocation Guidelines for the Protocol Field"; } typedef IGMP-Code{ type uint8 ; description "Many of these IGMP types have a 'code' field. Here is the list of the types again with their assigned code fields. Type Name Reference --------- ------------------------------------ --------- 0x11 IGMP Membership Query [RFC1112] 0x12 IGMPv1 Membership Report [RFC1112] 0x13 DVMRP [RFCDVMRP] 0x14 PIM version 1 [PIMv1] 0x15 Cisco Trace Messages 0x16 IGMPv2 Membership Report [RFC2236] 0x17 IGMPv2 Leave Group [RFC2236] Huang & Clemm Expires March 4, 2013 [Page 80] Internet-Draft yang-acl August 2012 0x1e Multicast Traceroute Response [Fenner] 0x1f Multicast Traceroute [Fenner] 0x22 IGMPv3 Membership Report [RFC3376] "; reference "IANA Internet Group Management Protocol (IGMP) Type Numbers"; } typedef ICMP-Type { type uint32 { range "0..255"; } description "ICMP-Type is the Internet Control Message Protocol (ICMP) 'type' field. The ICMP header starts after the IPv4 header. All ICMP packets will have an 8-byte header and variable-sized data section. The first 4 bytes of the header will be consistent. The first byte is for the ICMP type. The second byte is for the ICMP code. ICMP type is specified below Type Name Reference ---- ------------------------- --------- 0 Echo Reply [RFC792] 1 Unassigned [JBP] 2 Unassigned [JBP] 3 Destination Unreachable [RFC792] 4 Source Quench [RFC792] 5 Redirect [RFC792] 6 Alternate Host Address [JBP] 7 Unassigned [JBP] 8 Echo [RFC792] 9 Router Advertisement [RFC1256] 10 Router Selection [RFC1256] 11 Time Exceeded [RFC792] 12 Parameter Problem [RFC792] 13 Timestamp [RFC792] 14 Timestamp Reply [RFC792] 15 Information Request [RFC792] 16 Information Reply [RFC792] 17 Address Mask Request [RFC950] 18 Address Mask Reply [RFC950] 19 Reserved (for Security) [Solo] Huang & Clemm Expires March 4, 2013 [Page 81] Internet-Draft yang-acl August 2012 20-29 Reserved (for Robustness Experiment) [ZSu] 30 Traceroute [RFC1393] 31 Datagram Conversion Error [RFC1475] 32 Mobile Host Redirect [David Johnson] 33 IPv6 Where-Are-You [Bill Simpson] 34 IPv6 I-Am-Here [Bill Simpson] 35 Mobile Registration Request [Bill Simpson] 36 Mobile Registration Reply [Bill Simpson] 37-255 Reserved [JBP]"; reference "RFC1700 ASSIGNED NUMBERS RFC792 Internet Control Message Protocol RFC4443 Internet Control Message Protocol (ICMPv6) for the Internet Protocol Version 6 (IPv6) Specification RFC2780 IANA Allocation Guidelines For Values In the Internet Protocol and Related Headers"; } typedef ICMP-Code{ type uint32 { range "0..255"; } description "ICMP subtype to the given type. The ICMP header starts after the IPv4 header. All ICMP packets will have an 8-byte header and variable-sized data section. The first 4 bytes of the header will be consistent. The first byte is for the ICMP type. The second byte is for the ICMP code. "; reference "RFC2 INTERNET CONTROL MESSAGE PROTOCOL"; } typedef Vlan-Identifier { type uint16 { range "1 .. 4095"; } description "This type denotes a VLAN tag. "; reference "RFC3069 VLAN Aggregation for Efficient IP Address Allocation IEEE 802.1Q"; } typedef Time-to-Live{ Huang & Clemm Expires March 4, 2013 [Page 82] Internet-Draft yang-acl August 2012 description "The TTL is an 8-bit field in IP header. The maximum TTL value is 255."; type uint8 { range "0..255"; } } } 14. Security Considerations . 15. Acknowledgements We wish to acknowledge the contributions of Louis Fourie and Dana Blair to the design of this YANG data model. 16. Normative References [RFC6020] Bjorklund, M., "YANG - A Data Modeling Language for the Network Configuration Protocol (NETCONF)", RFC 6020, October 2010. [RFC6021] Schoenwaelder, J., "Common YANG Data Types", RFC 6021, October 2010. Authors' Addresses Lisa Huang Cisco Systems EMail: yihuan@cisco.com Alexander Clemm Cisco Systems EMail: alex@cisco.com Huang & Clemm Expires March 4, 2013 [Page 83]