Network Working Group K. Xu Internet-Draft J. Wu Intended status: Standards Track X. Wang Expires: 23 November 2023 Tsinghua University Y. Guo ZGC Lab 22 May 2023 Communication Protocol Between the AD Control Server and the AD Edge Router of Inter-Domain Source Address Validation Architecture draft-xu-savax-protocol-04 Abstract Because the Internet forwards packets according to the IP destination address, packet forwarding typically takes place without inspection of the source address and malicious attacks have been launched using spoofed source addresses. The inter-domain source address validation architecture is an effort to enhance the Internet by using state machine to generate consistent tags. When communicating between two end hosts at different ADs of IPv6 network, tags will be added to the packets to identify the authenticity of the IPv6 source address. This memo focus on the data plane of the SAVA-X mechanism. Discussion Venues This note is to be removed before publishing as an RFC. Source for this draft and an issue tracker can be found at https://github.com/BasilGuo/savax-protocol. 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 https://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." Xu, et al. Expires 23 November 2023 [Page 1] Internet-Draft savax-protocol May 2023 This Internet-Draft will expire on 23 November 2023. Copyright Notice Copyright (c) 2023 IETF Trust and the persons identified as the document authors. All rights reserved. This document is subject to BCP 78 and the IETF Trust's Legal Provisions Relating to IETF Documents (https://trustee.ietf.org/ license-info) in effect on the date of publication of this document. Please review these documents carefully, as they describe your rights and restrictions with respect to this document. Code Components extracted from this document must include Revised BSD License text as described in Section 4.e of the Trust Legal Provisions and are provided without warranty as described in the Revised BSD License. Table of Contents 1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 3 2. Conventions and Definitions . . . . . . . . . . . . . . . . . 3 2.1. Terminology and Abbreviation . . . . . . . . . . . . . . 4 3. Communication Protocol Format . . . . . . . . . . . . . . . . 4 4. ACS-ACS Communication Protocol . . . . . . . . . . . . . . . 7 4.1. Announcement, Query and Response of State Machine Information . . . . . . . . . . . . . . . . . . . . . . . 7 4.1.1. State Machine Information Announcement . . . . . . . 9 4.1.2. State Machine Information Request . . . . . . . . . . 11 4.2. Request and Response of Diagnose Information . . . . . . 13 5. ACS-AER Communication Protocol . . . . . . . . . . . . . . . 16 5.1. Deployment, Request and Response of AD Registration information . . . . . . . . . . . . . . . . . . . . . . . 16 5.1.1. Deployment of AD Registration Information . . . . . . 16 5.1.2. Request of AD Registration Information . . . . . . . 18 5.1.3. Reponse of AD Registration Information . . . . . . . 19 5.2. Deployment, Request and Reply of AD Prefix Information . 22 5.2.1. Deployment of AD Prefix Information . . . . . . . . . 22 5.2.2. Request of AD Prefix Information . . . . . . . . . . 25 5.2.3. Response of AD Prefix Information . . . . . . . . . . 27 5.3. Deployment, Request and Response of State Machine Information . . . . . . . . . . . . . . . . . . . . . . . 30 5.3.1. Deployment of State Machine Information . . . . . . . 30 5.3.2. Request of State Machine Information . . . . . . . . 33 5.3.3. Response of State Machine Information . . . . . . . . 35 5.4. Request and Response of Keep-alive Information . . . . . 37 5.4.1. Request of Keep-alive Information . . . . . . . . . . 38 5.4.2. Response of Keep-alive Information . . . . . . . . . 39 6. Deployment of Tag Information . . . . . . . . . . . . . . . . 40 7. Security Considerations . . . . . . . . . . . . . . . . . . . 41 Xu, et al. Expires 23 November 2023 [Page 2] Internet-Draft savax-protocol May 2023 8. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 41 9. References . . . . . . . . . . . . . . . . . . . . . . . . . 42 9.1. Normative References . . . . . . . . . . . . . . . . . . 42 9.2. Informative References . . . . . . . . . . . . . . . . . 42 Acknowledgments . . . . . . . . . . . . . . . . . . . . . . . . . 42 Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 42 1. Introduction The Inter-Domain Source Address Validation (SAVA-X) mechanism establishes a trust alliance among Address Domains (AD), maintains a one-to-one state machine among ADs, generates a consistent tag, and deploys the tag to the ADs' border router (AER). The AER of the source AD adds a tag to identify the identity of the AD to the packet originating from one AD and sinking in another AD. The AER of the destination AD verifies the source address by validating the correctness of the tag to determine whether it is a packet with a forged source address. In the process of packet forwarding, if the source address and the destination address of this packet both are addresses in the trust alliance, however the tag is not added or incorrectly added, AER of the destination AD determines that the source address is forged and directly discards this packet. The destination AD forwards the packet directly for packets whose source address is an address outside the trust alliance. This document mainly studies the relevant specifications of the data plane of the inter-domain source address validation architecture mechanism between ADs, which will protect IPv6 networks from being forged source address. You could see [RFC8200] for more details about IPv6. It stipulates the state machine, tag generation and update, tag processing in AER, and packet signature Its promotion and application can realize the standardization of the data plane in the SAVA-X to facilitate the related equipment developed by different manufacturers and organizations to cooperate to accomplish the inter- domain source address validation jointly. 2. Conventions and Definitions The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in BCP14 [RFC2119] [RFC8174] when, and only when, they appear in all capitals, as shown here. Xu, et al. Expires 23 November 2023 [Page 3] Internet-Draft savax-protocol May 2023 2.1. Terminology and Abbreviation +==============+====================================================+ | Abbreviation | Description | +==============+====================================================+ | AD | Address Domain, the unit of a trust | | | alliance, which is an address set | | | consisting of all IPv6 addresses | | | corresponding to an IPv6 address prefix. | +--------------+----------------------------------------------------+ | TA | Trust Alliance, the IPv6 network that | | | uses the SAVA-X mechanism. | +--------------+----------------------------------------------------+ | ACS | AD Control Server, the server that | | | matains state machine with other ACS and | | | distribute information to AER. | +--------------+----------------------------------------------------+ | AER | AD border router, which is placed at the | | | boundary of an AD of STA. | +--------------+----------------------------------------------------+ | ADID | The identity of an AD. | +--------------+----------------------------------------------------+ | ADID_Rec | The record of a number of an AD. | +--------------+----------------------------------------------------+ | ARI_Rec | The record with relavent information of | | | an AD or STA. | +--------------+----------------------------------------------------+ | API_Rec | The record of prefix of an AD or STA. | +--------------+----------------------------------------------------+ | SM | State Machine, which is maintained by a | | | pair of ACS to generate tags. | +--------------+----------------------------------------------------+ | SMI_Rec | The record of the state machine | | | information. | +--------------+----------------------------------------------------+ | Tag | The authentic identification of source | | | address of a packet. | +--------------+----------------------------------------------------+ Table 1 3. Communication Protocol Format Every AD should be placed at least one ACS, which is mainly responsible for maintaining the relationship between ADs of the trust alliance, establishing connections with other ACS, maintaining the synchronous state machine, and sending the generated tags to the AER. TCP is used for communicating between ACS-ACS and ACS-AER. Xu, et al. Expires 23 November 2023 [Page 4] Internet-Draft savax-protocol May 2023 0 1 2 3 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Version | Alliance | I Type| S Type| Operation | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Total Length | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Number of Records | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Transaction Number | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Acknowledgement Number | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ ~ Data ~ +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ Figure 1: General communication packet format. Version: 8-bit, the current version=0b1 of SAVA-X. Alliance: 8-bit, the sub-trust alliance number. I Type: 4-bit, Information type, 0 for G_REF_INFO, 1 for AD_REG_INFO, 2 for AD_PREFIX_INFO, 3 for STATE_MACHINE_INFO, 4 for DIAGNOSIS_INFO, 5 for RUNNING_STATE_INFO, 6 for STRATEGY_INFO, 7 for ALIVE_INFO, 8 for TAG_INFO, 9 for ALLI_TAG_INFO, 10 for AD_V_TAG_INFO and others are unassigned. S Type: 4-bit, Session type, 1 for ANNOUNCEMENT or DEPLOYMENT, 2 for REQUEST, 3 for REQUEST_ALL, 4 for ACK, 5 for NAK, 6 for AACK, 7 for ANAK, 8 for RACK, 9 for RNAK and others are unassigned. Operation: 8-bit, the first 3 bits means for whether RENEW Type or not. First bit: 0 for non-RENEW packet, 1 for RENEW packet. Second bit: 0 for the first non-RENEW packet, 1 for the first RENEW packet. Third bit: 0 for the last non-RENEW packet, 1 for the last RENEW packet. Total Length: 32-bit, the length of this packet: from Version to Data. Number of Records: 32-bit, he records in Data. Transaction Number: 32-bit, this is the identification of a publication, query or response, and the value should increase monotonically. And different I Types MUST have its own Transaction Number. Through this field, ACS can locate which information has been resolved wrongly and corrected it. Xu, et al. Expires 23 November 2023 [Page 5] Internet-Draft savax-protocol May 2023 Acknowledgement Number: 32-bit, it is only be filled when S Type is ACK, NAK, AACK, ANAK, RACK or RNAK. Otherwise it is should be filled as 0. Data: Variable-length field. I Type and S Type specifies data jointly. When S Type is ANNOUNCEMENT: * If I Type = AD_REG_INFO, Data field SHOULD be one or more ARI_Rec. * If I Type = AD_PREFIX_INFO, Data field SHOULD be one or more API_Rec. * If I Type = STATE_MACHINE_INFO, Data field SHOULD be one or more SMI_Rec. * If I Type = TAG_INFO, ALLI_TAG_INFO or AD_V_TAG_INFO, Data field SHOULD be one or more TAG_Rec. When S Type is REQUEST or REQUEST_ALL: * If I Type = REG_INFO, Data field SHOULD be one or more ADID_Rec. * If I Type = AD_PREFIX_INFO, Data field SHOULD be none or one or more ADID_Rec. * If I Type = STATE_MACHINE_INFO, Data field SHOULD be none or one or more ADID_Rec. * If I Type = DIAGNOSE_INFO, Data field SHOULD be a 32-bit diagnose reqeust code. * If I Type = ALIVE_INFO, Data field SHOULD be none. When S Type is ACK, AACK or RACK: * If I Type = REG_INFO, Data field SHOULD be one or more ARI_Rec. * If I Type = AD_PREFIX_INFO, Data field SHOULD be one or more API_Rec. * If I Type = STATE_MACHINE_INFO, Data field SHOULD be one or more SMI_Rec. * If I Type = DIAGNOSE_INFO, Data field SHOULD be one 32-bit diagnose response code. Xu, et al. Expires 23 November 2023 [Page 6] Internet-Draft savax-protocol May 2023 * If I Type = ALIVE_INFO, Data field SHOULD be none. When S Type is NAK, ANAK or RNAK, Data field SHOULD be one 32-bit error code: * 1 for parameters are wrong which means the packet cannot resolve correctly. * 2 for member AD(s) in request packet does not exist in the designative sub-trust alliance. * 3 for algorithm for State Machine set by source ACS cannot support by the destination ACS. 4. ACS-ACS Communication Protocol Since the blockchain is adopted in SAVA-X to maintain the information of the trust alliance, ACS can query the address domain information of relevant ADes of the trust alliance and the AD prefix information corresponding to the address domain from the blockchain. 4.1. Announcement, Query and Response of State Machine Information State machine information record (SMI_Rec) represents the packet format used when state machine is negotiated between different ordered pairs of ADs. When an ordered pair of ADs is negotiating the state machine, ACS of AD with smaller ADID initiates the communication and ACS of AD with larger ADID uses SMI_Rec determines the information to be used, such as initial state, tag generation algorithm, state transition interval, etc. Compared to ARI_Rec and API_Rec,SMI_Rec also needs an Expiring Time in addition to the Effecting Time. Expiration Time stands when the negotiated state machine is no longer valid. Xu, et al. Expires 23 November 2023 [Page 7] Internet-Draft savax-protocol May 2023 0 1 2 3 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 +-+-+-+-+-+-+-+-+ | Action | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Source ADID_Rec | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Destination ADID_Rec | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | State Mathine ID | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Algorithm | IS Length | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ ~ Initial State ~ +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Transition Interval | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Effecting Time | | | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Expiring Time | | | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ Figure 2: Format of state machine information record. Action: 8-bit, 1 for add or update this SMI_Rec. Source ADID_Rec: Variable-length field. Refer to ADID_Rec [savax-control]. Destination ADID_Rec: Variable-length field. Refer to ADID_Rec in [savax-control]. State Mathine ID: 32-bit, the ID used to identify the state machine, which is unique to a specific ordered AD pair and grows monotonically in use. It is used to distinguish the sequence before and after the generation of multiple state machines. Algorithm: 16-bit, algorithm used in A-Box. 1 for KISS-99 32-bit, 2 for KISS-99 64-bit Joint, 3 for OTP-2289 MD5 and others are unassigned. IS Length: 16-bit, the length of Initial State field. Initial State: Variable-length field, the length of this filed is determined by IS Length. Xu, et al. Expires 23 November 2023 [Page 8] Internet-Draft savax-protocol May 2023 Transition Interval: 32-bit, the milliseconds of interval of state transition. Effecting Time: 64-bit, when this field is 0, it means this State Machine should be enabled after the last State Machine expired. Expiring Time: 64-bit, the end of this State Machine. 4.1.1. State Machine Information Announcement State machine information announcement (SM_INFO-Announce) is sent from source ACS to destination ACS. Source ACS fills in the following values for each field: +=================+==============================================+ | Field | Value | +=================+==============================================+ | Version | 1 | +-----------------+----------------------------------------------+ | Alliance | The sub-trust alliance number. | +-----------------+----------------------------------------------+ | I Type | SM_INFO | +-----------------+----------------------------------------------+ | S Type | ANNOUNCEMENT | +-----------------+----------------------------------------------+ | Operation | NULL: source ACS updates part of the state | | | machines information to destination ACS. | | | RENEW: source ACS updates all the state | | | machines information to destination ACS. | +-----------------+----------------------------------------------+ | Total Length | The length of this message. | +-----------------+----------------------------------------------+ | Number of | The number of SMI_Recs in Data field. | | Records | | +-----------------+----------------------------------------------+ | Transaction | The last Transaction Number add 1. ACS | | Number | would maintain a global Transaction Number | | | for packets sent out where I Type is SM_INFO | | | and ACS would keep it increasing monotonic. | +-----------------+----------------------------------------------+ | Acknowledgement | 0 | | Number | | +-----------------+----------------------------------------------+ | Data | One or more SMI_Recs. | +-----------------+----------------------------------------------+ Table 2 Xu, et al. Expires 23 November 2023 [Page 9] Internet-Draft savax-protocol May 2023 All SMI_Recs in Data field should have an unique SM_ID. When Action is ADD and SM_ID bigger than current used SM_ID, ACS should add the state machine defined in SMI_Rec. When Action is ADD and SM_ID equals to current used SM_ID, ACS should modify the state machine defined in SMI_Rec. Only Transition Interval and Expiring Time can be modified. Other SMI_Rec should be discarded and destination ACS should send a NAK message to source ACS. When receiving a non-RENEW packet, if it cannot resolve this message, destination ACS should send a NAK message to source ACS. When destination ACS can resolve the packet correctly, it SHOULD: 1. Compare the Transaction Number in this packet with Transaction Number received from the same ACS before. Otherwise, destination ACS would discard this packet and send a SM_INFO-Request to request the lastest information of state machine. SM_INFO- Request is defined at Section 4.1.2. If bigger, destination ACS WOULD: 2. Accept every SMI_Rec and process them as following: - If the SM_ID in SMI_Rec equals to current used SM_ID, destination ACS would update the current used SM_ID. - If the SM_ID in SMI_Rec bigger than current used SM_ID, destination ACS would add this state machine to its following used state machine list. 3. And then destination ACS will send an SM_INFO-AACK message to source ACS. When receiving a RENEW packet, if it cannot resolve this message, destination ACS should send a SM_INFO-ANAK message to source ACS. When destination ACS can resolve the packet correctly, it SHOULD: 1. Compare the Transaction Number in this packet with Transaction Number received from the same ACS before. Otherwise, destination ACS would discard this packet and send a SM_INFO-Request to request the lastest information of state machine. If bigger, destination ACS WOULD: 2. Accept every SMI_Rec and process them as following: - If the SM_ID in SMI_Rec equals to current used SM_ID, destination ACS would update the current used SM_ID. - If the SM_ID in SMI_Rec bigger than current used SM_ID, destination ACS would add this state machine to its following used state machine list. Especially, state machines will be removed right now when they are not listed in the SMI_Recs but they are in using. 3. And then destination ACS will send an SM_INFO-AACK message to source ACS. Xu, et al. Expires 23 November 2023 [Page 10] Internet-Draft savax-protocol May 2023 There are two types of reply of SM_INFO-Annouce message. That is SM_INFO-AACK representing affirmative acknowledgement and SM_INFO- ANAK representing negative acknowledgement. These are sent from destination ACS to source ACS. The mainly part of packet is filled by destination ACS as follows: +=================+==============================================+ | Field | Value | +=================+==============================================+ | Version | 1 | +-----------------+----------------------------------------------+ | Alliance | The sub-trust alliance number. | +-----------------+----------------------------------------------+ | I Type | SM_INFO | +-----------------+----------------------------------------------+ | S Type | AACK if it is affirmative acknowledgement or | | | ANAK if it is negative acknowledgement. | +-----------------+----------------------------------------------+ | Operation | NULL | +-----------------+----------------------------------------------+ | Total Length | The length of this message. | +-----------------+----------------------------------------------+ | Number of | 0 | | Records | | +-----------------+----------------------------------------------+ | Transaction | The last Transaction Number add 1. ACS | | Number | would maintain a global Transaction Number | | | for packets sent out where I Type is SM_INFO | | | and ACS would keep it increasing monotonic. | +-----------------+----------------------------------------------+ | Acknowledgement | The Transaction Number of the response | | Number | corresponding request. | +-----------------+----------------------------------------------+ | Data | S Type = AACK: None. S Type = ANAK: a | | | 32-bit error code defined in Section 3. | +-----------------+----------------------------------------------+ Table 3 Nothing needs to do when source ACS receives an SM_INFO-AACK message while it should regenerate a new state machine and announces to destination ACS when source ACS receives an SM_INFO-ANAK message. 4.1.2. State Machine Information Request State machine information request (SM_INFO-Request) is sent from source ACS to destination ACS. Source ACS fills in the following values for each field: Xu, et al. Expires 23 November 2023 [Page 11] Internet-Draft savax-protocol May 2023 +=================+==============================================+ | Field | Value | +=================+==============================================+ | Version | 1 | +-----------------+----------------------------------------------+ | Alliance | The sub-trust alliance number. | +-----------------+----------------------------------------------+ | I Type | SM_INFO | +-----------------+----------------------------------------------+ | S Type | REQUEST | +-----------------+----------------------------------------------+ | Operation | NULL: announce all state machine information | | | to source ACS. | +-----------------+----------------------------------------------+ | Total Length | The length of this message. | +-----------------+----------------------------------------------+ | Number of | 0 | | Records | | +-----------------+----------------------------------------------+ | Transaction | The last Transaction Number add 1. ACS | | Number | would maintain a global Transaction Number | | | for packets sent out where I Type is SM_INFO | | | and ACS would keep it increasing monotonic. | +-----------------+----------------------------------------------+ | Acknowledgement | 0 | | Number | | +-----------------+----------------------------------------------+ | Data | None | +-----------------+----------------------------------------------+ Table 4 When source ACS receives a SM_INFO-Request message, it would send a SM_INFO-RNAK message to destination ACS if some fields are wrong. Otherwise, source ACS would send an SM_INFO-RACK message to destination ACS and process this SM_INFO-Request message. Source ACS should compare the Transaction Number in this message with Transaction Number received from the same destination ACS before. Otherwise, source ACS would discard this packet. If bigger, source ACS would send an SM_INFO-RACK message to destination ACS. Xu, et al. Expires 23 November 2023 [Page 12] Internet-Draft savax-protocol May 2023 There are two types of reply of SM_INFO-Request message, i.e. SM_INFO-RACK representing affirmative acknowledgement and SM_INFO- RNAK representing negative acknowledgement. These are sent from source ACS to destination ACS. The mainly part of packet is filled by source ACS as follows: I Type is SM_INFO. S Type is RACK if it is affirmative acknowledgement or RNAK if it is negative acknowledgement. Operation is NULL. When S Type is RACK, Data field is a few of SMI_Recs. When S Type is RNAK, Data field is a 32-bit error code. When receiving a SM_INFO-RACK message, if it cannot resolve this message, destination ACS should send a SM_INFO-Request message to source ACS to acquire another state machine. When destination ACS can resolve the message correctly, it SHOULD: 1. Compare the Transaction Number in this packet with Transaction Number received from the same source ACS before. Otherwise, destination ACS would discard this packet and send a SM_INFO- Request to request the lastest information of state machine. If bigger, destination ACS WOULD: 2. Accept every SMI_Rec and process them as following: - If the SM_ID in SMI_Rec equals to current used SM_ID, destination ACS would update the current used SM_ID. - If the SM_ID in SMI_Rec bigger than current used SM_ID, destination ACS would add this state machine to its following used state machine list. 3. And then destination ACS will send an SM_INFO-AACK message to source ACS. When receiving a SM_INFO-RNAK message, if it cannot resolve this message, destination ACS should send a SM_INFO-Request message to source ACS to acquire new state machine. When destination ACS can resolve the message correctly, it SHOULD compare the Transaction Number in this packet with Transaction Number received from the same source ACS before. Otherwise, destination ACS would discard this packet and send a SM_INFO-Request to request the lastest information of state machine. If bigger, destination ACS WOULD send a new correct SM_INFO-Request message to source ACS. 4.2. Request and Response of Diagnose Information Sent by destination ACS, request of diagnose information (DIAG_INFO- Request) is used to require the source ACS to check its configuration and source AERs' settings. Source ACS will response with its result. Destination ACS fills in the following values for each field: Xu, et al. Expires 23 November 2023 [Page 13] Internet-Draft savax-protocol May 2023 +=================+===============================================+ | Field | Value | +=================+===============================================+ | Version | 1 | +-----------------+-----------------------------------------------+ | Alliance | The sub-trust alliance number. | +-----------------+-----------------------------------------------+ | I Type | DIAG_INFO | +-----------------+-----------------------------------------------+ | S Type | REQUEST | +-----------------+-----------------------------------------------+ | Operation | NULL | +-----------------+-----------------------------------------------+ | Total Length | The length of this message. | +-----------------+-----------------------------------------------+ | Number of | 0 | | Records | | +-----------------+-----------------------------------------------+ | Transaction | The last Transaction Number add 1. ACS would | | Number | maintain a global Transaction Number for | | | packets sent out where I Type is DIAG_INFO | | | and ACS would keep it increasing monotonic. | +-----------------+-----------------------------------------------+ | Acknowledgement | 0 | | Number | | +-----------------+-----------------------------------------------+ | Data | a 32-bit error code defined below. | +-----------------+-----------------------------------------------+ Table 5 Response of diagnose information (DIAG_INFO-Response) replys from source ACS to destination ACS. Xu, et al. Expires 23 November 2023 [Page 14] Internet-Draft savax-protocol May 2023 +=================+===============================================+ | Field | Value | +=================+===============================================+ | Version | 1 | +-----------------+-----------------------------------------------+ | Alliance | The sub-trust alliance number. | +-----------------+-----------------------------------------------+ | I Type | DIAG_INFO | +-----------------+-----------------------------------------------+ | S Type | ACK | +-----------------+-----------------------------------------------+ | Operation | NULL | +-----------------+-----------------------------------------------+ | Total Length | The length of this message. | +-----------------+-----------------------------------------------+ | Number of | 0 | | Records | | +-----------------+-----------------------------------------------+ | Transaction | The last Transaction Number add 1. ACS would | | Number | maintain a global Transaction Number for | | | packets sent out where I Type is DIAG_INFO | | | and ACS would keep it increasing monotonic. | +-----------------+-----------------------------------------------+ | Acknowledgement | The Transaction Number of the response | | Number | corresponding request. | +-----------------+-----------------------------------------------+ | Data | a 32-bit error code defined below. | +-----------------+-----------------------------------------------+ Table 6 Before it sends the DIAG_INFO-Request message, the destination ACS should check its own configuration and gurantee they are correct. If it receives a DIAG_INFO-Request message, the source ACS would check the communication with its own AER whether correct or not. 1. If it's wrong, source ACS would reply a DIAG_INFO-Response message in which its Data filed is filled with 2 for fault cannot be repaired and alarm to administrator to deal with this problem. 2. If it's right, source ACS would RENEW all the registration information, prefix information and state machine information to its all AERs. After that, source ACS will reply a DIAG_INFO- Response message in which its Data filed is filled with 1 for all runs correctly after repairing. Xu, et al. Expires 23 November 2023 [Page 15] Internet-Draft savax-protocol May 2023 5. ACS-AER Communication Protocol ACS would periodically deploy AD registration information, AD prefix information, and state machine information of relevant ADes to its all AERs to guarantee all information are latest. And ACS also would deploy the tag information to its all AERs periodically. 5.1. Deployment, Request and Response of AD Registration information 5.1.1. Deployment of AD Registration Information After connecting with AER, ACS deploys the AD Registration Information (REG_INFO-Deploy) to AER peroidically. I Type is REG_INFO. S Type is Announcement. Operation is NULL when some ADes' information are joined, left or updated and Operation is RENEW when all ADes' information are deployed. Acknowledgement is 0. Data field is one or more ARI_Rec. It should be noted that when there are two ARI_Recs in Data fields responding to the same AD, one may effect right now and the other effects after passing Effecting Time. When AER receives this message, all of them should be restored in the trust alliance list and AER MUST process them orderly. Since the protocol processes the records in sequence, it is required that the ARI_Rec effecting at the current time for the same member AD should appear in front of another updating ARI_Rec. When receiving a non-RENEW packet, if it cannot resolve this message, AER could send a REG_INFO-Request message to acquire the latest AD registration information. When AER can resolve this message correctly, it SHOULD: 1. Compare the Transaction Number in this packet with Transaction Number received from the same ACS before. If bigger, AER WOULD accept every ARI_Rec and process them as follows. Otherwise, AER would discard this packet and send a REG_INFO-RequestAll message to acquire the lastest information of AD registration information. 2. Process every ARI_Rec: - If Action is ADD and the record does not exist in its maintained trust alliance list, AER would add this record to its trust alliance list. - If Action is ADD and the record exists in its maintained trust alliance list but ACS Address is changed, AER would add this record to its trust alliance list and delete original record after passing Effecting Time in this ARI_Rec. - If Action is ADD and the record exists in its maintained trust alliance list and ACS Address is not Xu, et al. Expires 23 November 2023 [Page 16] Internet-Draft savax-protocol May 2023 changed, AER would do nothing. - If Action is DEL and the record exists in its maintained trust alliance list, AER would remove this record from its trust alliance list after passing Effecting Time in this ARI_Rec. 3. If a change is made in step 2, the update should take effect after passing the Effecting Time, which acts on the data plane. If the Effecting Time is earlier than the current time or is all 0, it will take effect immediately. AER acts as following when receiving a RENEW packet. When ACS initiates RENEW, it would send a RENEW meesge with which the first bit of Operation field is 1. The second bit of Operation field identifies the begin of a procedure of RENEW and the third bit of Operation field identifies the end of a procedure of RENEW. ACS MUST NOT send a RENEW packet with which the first bit of Operation field is 0 in RENEWing. AER MUST process this procedure of RENEW after received all RENEW packets. When AER can resolve this packet correctly, it SHOULD: 1. Compare the Transaction Number in this packet with Transaction Number received from the same ACS before. If bigger, AER would accept every ARI_Rec and process them as follows. Otherwise, AER would discard this packet and send a REG_INFO-RequestAll message to acquire the lastest information of AD registration information. 2. Process every ARI_Rec: - If the record does not exist in its maintained trust alliance list, AER would add this record to its trust alliance list. - If the record exists in its maintained trust alliance list but ACS Address is changed, AER would add this record to its trust alliance list and delete original record after passing Effecting Time in this ARI_Rec. - If the record exists in its maintained trust alliance list and ACS Address is not changed, AER would do nothing. - If there are some records in the original trust alliance list that do not appear in the Data field during this RENEW process, they will be deleted immediately. 3. If a change is made in step 2, the update should take effect after passing the Effecting Time, which acts on the data plane. If the Effecting Time is earlier than the current time or is all 0, it will take effect immediately. Xu, et al. Expires 23 November 2023 [Page 17] Internet-Draft savax-protocol May 2023 5.1.2. Request of AD Registration Information The request is sent by AER to ACS. There are two types of request of AD Registration Information message. When querying the information of all member ADs of the trust alliance, the type is REG_INFO- RequestAll and REG_INFO-Request is used when querying the information of partial member ADs of the trust alliance. +=================+=========================================+ | Field | Value | +=================+=========================================+ | Version | 1 | +-----------------+-----------------------------------------+ | Alliance | The sub-trust alliance number. | +-----------------+-----------------------------------------+ | I Type | REG_INFO | +-----------------+-----------------------------------------+ | S Type | REQUEST: for querying partial member | | | ADs and S Type is REQUEST_ALL: for | | | querying all member ADs. | +-----------------+-----------------------------------------+ | Operation | NULL | +-----------------+-----------------------------------------+ | Total Length | The length of this message. | +-----------------+-----------------------------------------+ | Number of | S Type = REQUEST: the number of | | Records | ADID_Recs in Data field. S Type = | | | REQUEST_ALL: 0. | +-----------------+-----------------------------------------+ | Transaction | The last Transaction Number add 1. AER | | Number | would maintain a global Transaction | | | Number for packets sent out to ACS | | | where I Type is REG_INFO and AER would | | | keep it increasing monotonic. | +-----------------+-----------------------------------------+ | Acknowledgement | 0 | | Number | | +-----------------+-----------------------------------------+ | Data | S Type = REQUEST: one or more | | | ADID_Recs. S Type = REQUEST_ALL: None. | +-----------------+-----------------------------------------+ Table 7 When processing REG_INFO-Request(ALL) message, ACS would reply REG_INFO-NAK to AER if it holds some fields are wrong. For example, AER requests one ARI_Rec that does not exist. Otherwise, REG_INFO- ACK message will be replyed. ACS WOULD process as follows: Xu, et al. Expires 23 November 2023 [Page 18] Internet-Draft savax-protocol May 2023 1. ACS SHOULD compare the Transaction Number in this packet with Transaction Number received from the same AER before. If bigger, ACS would process as step 2. Otherwise, AER WOULD discard this packet and send a REG_INFO-NAK message to AER. 2. ACS processes every ADID_Rec. If the AD exists in its maintained trust alliance list, ACS would mark this record as "Reply". Otherwise ACS would mark this record as "Negative Reply". Especially, all records would be marked with "Reply" when Operation field is REQUEST_ALL. 3. If any case in step 2 is marked with "Negative Reply", ACS would construct a REG_INFO-NAK message to reply to the AER. Otherwise, a REG_INFO-ACK message is constructed to reply the AD registration information of all members marked with "Reply" to the AER. 5.1.3. Reponse of AD Registration Information AD registration information response includs two types. That is REG_INFO-ACK and REG_INFO-NAK. ACS will reply to AER according to the request of registration information sent by AER to ACS. Xu, et al. Expires 23 November 2023 [Page 19] Internet-Draft savax-protocol May 2023 +=================+=============================================+ | Field | Value | +=================+=============================================+ | Version | 1 | +-----------------+---------------------------------------------+ | Alliance | The sub-trust alliance number. | +-----------------+---------------------------------------------+ | I Type | REG_INFO | +-----------------+---------------------------------------------+ | S Type | ACK: representing affirmative | | | acknowledgement. NAK: representing | | | negative acknowledgement. | +-----------------+---------------------------------------------+ | Operation | NULL: REG_INFO-Request message. RENEW: | | | REG_INFO-RequestAll. | +-----------------+---------------------------------------------+ | Total Length | The length of this message. | +-----------------+---------------------------------------------+ | Number of | S Type = ACK: the number of ARI_Recs in | | Records | Data field. S Type = REQUEST_ALL: 0. | +-----------------+---------------------------------------------+ | Transaction | The last Transaction Number add 1. ACS | | Number | would maintain a global Transaction Number | | | for packets sent out to AER where I Type is | | | REG_INFO and ACS would keep it increasing | | | monotonic. | +-----------------+---------------------------------------------+ | Acknowledgement | The Transaction Number of the response | | Number | corresponding request. | +-----------------+---------------------------------------------+ | Data | S Type = ACK: one or more ARI_Recs. S Type | | | = NAK: a 32-bit error code defined at | | | Section 3. There is no boundary | | | identification between these ARI_Recs, | | | which requires that the implementation of | | | the protocol can process each record | | | sequentially until the end of this message. | +-----------------+---------------------------------------------+ Table 8 Xu, et al. Expires 23 November 2023 [Page 20] Internet-Draft savax-protocol May 2023 It should be noted that when there are two ARI_Recs in Data fields responding to the same AD, one may effect right now and the other effects after passing Effecting Time. When AER receives this message, all of them should be restored in the trust alliance list and AER MUST process them orderly. Since the protocol processes the records in sequence, it is required that the ARI_Rec effecting at the current time for the same member AD should appear in front of another updating ARI_Rec. When receiving a non-RENEW REG_INFO-ACK message, if it holds that some fields are wrong, AER could send a REG_INFO-RequestAll message to acquire the latest AD registration information. Otherwise, AER would act as follows. 1. AER SHOULD compare the Transaction Number in this packet with Transaction Number received from the same ACS before. If bigger, AER would process them as follows. Otherwise, AER would discard this packet and send a REG_INFO-RequestAll message to acquire the lastest information of AD registration information. 2. AER WOULD processes every ARI_Rec: - If Action is ADD and the record does not exist in its maintained trust alliance list, AER would add this record to its trust alliance list. - If Action is ADD and the record exists in its maintained trust alliance list but ACS Address is changed, AER would add this record to its trust alliance list and delete original record after passing Effecting Time in this ARI_Rec. - If Action is ADD and the record exists in its maintained trust alliance list and ACS Address is not changed, AER would do nothing. - If Action is DEL and the record exists in its maintained trust alliance list, AER would remove this record from its trust alliance list after passing Effecting Time in this ARI_Rec. 3. If a change is made in step 2, the update should take effect after passing the Effecting Time, which acts on the data plane. If the Effecting Time is earlier than the current time or is all 0, it will take effect immediately. AER acts as following when receiving a RENEW REG_INFO-ACK message. When ACS initiates RENEW, it would send a RENEW meesge with which the first bit of Operation field is 1. The second bit of Operation field identifies the begin of a procedure of RENEW and the third bit of Operation field identifies the end of a procedure of RENEW. ACS MUST NOT send a RENEW packet with which the first bit of Operation field is 0 in RENEWing. AER MUST process this procedure of RENEW after received all RENEW packets. When AER can resolve this packet correctly, it SHOULD: Xu, et al. Expires 23 November 2023 [Page 21] Internet-Draft savax-protocol May 2023 1. Compare the Transaction Number in this packet with Transaction Number received from the same ACS before. If bigger, AER would accept every ARI_Rec and process them as step 2. Otherwise, AER would discard this packet and send a REG_INFO-RequestAll message to acquire the lastest information of AD registration information. 2. Process every ARI_Rec: - If the record does not exist in its maintained trust alliance list, AER would add this record to its trust alliance list. - If the record exists in its maintained trust alliance list but ACS Address is changed, AER would add this record to its trust alliance list and delete original record after passing Effecting Time in this ARI_Rec. - If the record exists in its maintained trust alliance list and ACS Address is not changed, AER would do nothing. -If there are some records in the original trust alliance list that do not appear in the Data field during this RENEW process, they will be deleted immediately. 3. If a change is made in step 2, the update should take effect after passing the Effecting Time, which acts on the data plane. If the Effecting Time is earlier than the current time or is all 0, it will take effect immediately. When AER receives an REG_INFO-NAK message, it could send a REG_INFO- RequestAll message to ACS to acquire the latest AD registration information. 5.2. Deployment, Request and Reply of AD Prefix Information 5.2.1. Deployment of AD Prefix Information AD prefix information deployment (PFX_INFO-Deploy) is sent from ACS to AER. ACS fills in the following values for each field: Xu, et al. Expires 23 November 2023 [Page 22] Internet-Draft savax-protocol May 2023 +=================+=============================================+ | Field | Value | +=================+=============================================+ | Version | 1 | +-----------------+---------------------------------------------+ | Alliance | The sub-trust alliance number. | +-----------------+---------------------------------------------+ | I Type | AD_PREFIX_INFO | +-----------------+---------------------------------------------+ | S Type | DEPLOYMENT | +-----------------+---------------------------------------------+ | Operation | NULL: to publish partial update information | | | of member ADs' prefix. RENEW: to publish | | | all member ADs' prefix. | +-----------------+---------------------------------------------+ | Total Length | The length of this message. | +-----------------+---------------------------------------------+ | Number of | The number of API_Recs in Data field. | | Records | | +-----------------+---------------------------------------------+ | Transaction | The last Transaction Number add 1. ACS | | Number | would maintain a global Transaction Number | | | for packets sent out to AER where I Type is | | | AD_PREFIX_INFO and ACS would keep it | | | increasing monotonic. | +-----------------+---------------------------------------------+ | Acknowledgement | 0 | | Number | | +-----------------+---------------------------------------------+ | Data | One or more API_Recs. There is no boundary | | | identification between these API_Recs, | | | which requires that the implementation of | | | the protocol can process each record | | | sequentially until the end of this message. | +-----------------+---------------------------------------------+ Table 9 It should be noted that when there are two ARI_Recs in Data fields responding to the same AD, one may effect right now and the other is update message for ADD or DEL effecting after the Effecting Time. For example, if the current time is 5 and there are two records corresponding to the prefix P, in which the Effecting Time of record R1 is 1, the action is ADD, the Effecting Time of record R2 is 7 and the action is DEL, then it indicates that the prefix P is currently valid effective from time 1 and becomes invalid at time 7. When ACS or AER receives this message, all of them should be restored in the database and ACS should send them all when deploying. Since the Xu, et al. Expires 23 November 2023 [Page 23] Internet-Draft savax-protocol May 2023 protocol processes the records in sequence, it is required that the API_Rec effecting at the current time for the same member AD should appear in front of another updating API_Rec. When receiving a non-RENEW PFX_INFO-Deploy message, if it holds that some fields are wrong, for example, it requires to delete a API_Rec that does not exist or to add some prefix that is conflict with other member ADs, AER could send a request message to acquire the latest AD prefix information. Otherwise, AER would act as follows. 1. AER SHOULD compare the Transaction Number in this packet with Transaction Number received from the same ACS before. If bigger, AER WOULD process them as step 2. Otherwise, AER would discard this packet and send a PFX_INFO-RequestAll message to acquire the lastest information of AD prefix information. 2. AER processes every API_Rec: - If Action is ADD and the record does not exist in its maintained prefix list, AER would add this record to its prefix list. - If Action is ADD and the record exists in its maintained prefix list, AER would do nothing. - If Action is DEL and the record exists in its maintained prefix list, AER would remove this record from its prefix list after Effecting Time. 3. If a change is made in step 2, the update should take effect after the Effecting Time, which acts on the data plane. If the Effecting Time is earlier than the current time or is all 0, it will take effect immediately. AER acts as following when receiving a RENEW PFX_INFO-Deploy message. When ACS initiates RENEW, it would send a RENEW meesge with which the first bit of Operation field is 1. The second bit of Operation field identifies the begin of a procedure of RENEW and the third bit of Operation field identifies the end of a procedure of RENEW. ACS MUST NOT send a RENEW packet with which the first bit of Operation field is 0 in RENEWing. AER SHOULD uniformly process all packets in this RENEW process after receiving all RENEW packets. 1. AER SHOULD compare the Transaction Number in this packet with Transaction Number received from the same ACS before. If bigger, AER WOULD process as step 2. Otherwise, AER would discard this message and send a PFX_INFO-RequestAll message to acquire the lastest information of AD prefix information. 2. AER processes every API_Rec: - If the record does not exist in its maintained prefix list, AER would add this record to its trust alliance list. - If the record exists in its maintained prefix list, AER would do nothing. - If there are some records Xu, et al. Expires 23 November 2023 [Page 24] Internet-Draft savax-protocol May 2023 in the original prefix list that do not appear in the Data field during this RENEW process, these records will be deleted immediately. 3. If a change is made in step 2, the update should take effect after passing the Effecting Time, which acts on the data plane. If the Effecting Time is earlier than the current time or is all 0, it will take effect immediately. 5.2.2. Request of AD Prefix Information AD prefix information request (PFX_INFO-RequestAll) is sent from AER to ACS to query some member ADs', including itself, all latest AD prefix information. AER fills in the following values for each field: Xu, et al. Expires 23 November 2023 [Page 25] Internet-Draft savax-protocol May 2023 +=================+=========================================+ | Field | Value | +=================+=========================================+ | Version | 1 | +-----------------+-----------------------------------------+ | Alliance | The sub-trust alliance number. | +-----------------+-----------------------------------------+ | I Type | AD_PREFIX_INFO | +-----------------+-----------------------------------------+ | S Type | REQUEST_ALL: querying from ACS the | | | latest AD prefix information of all | | | member ADs. | +-----------------+-----------------------------------------+ | Operation | NULL | +-----------------+-----------------------------------------+ | Total Length | The length of this message. | +-----------------+-----------------------------------------+ | Number of | 0 | | Records | | +-----------------+-----------------------------------------+ | Transaction | The last Transaction Number add 1. AER | | Number | would maintain a global Transaction | | | Number for packets sent out to ACS | | | where I Type is AD_PREFIX_INFO and AER | | | would keep it increasing monotonic. | +-----------------+-----------------------------------------+ | Acknowledgement | 0 | | Number | | +-----------------+-----------------------------------------+ | Data | None | +-----------------+-----------------------------------------+ Table 10 When receiving a PFX_INFO-RequestAll message, if it holds that some fields are wrong, ACS could send a PFX_INFO-NAK. Otherwise, ACS would act as follows. The specific construction methods of PFX_INFO- ACK and PFX_INFO-NAK are described in Section 5.2.3. 1. ACS SHOULD compare the Transaction Number in this packet with Transaction Number whose I Type is PFX_INFO received from the same AER before. If bigger, ACS WOULD process them as step 2. Otherwise, ACS would discard this packet and send a PFX_INFO-NAK message. Xu, et al. Expires 23 November 2023 [Page 26] Internet-Draft savax-protocol May 2023 2. ACS processes every ADID_Rec. If AD exists in the maintained trust alliance list, ACS would mark this record as "Reply". Otherwise, ACS wourld mark this rocord as "Negative Reply". Particularly, all records are marked with "Reply" when S Type is REQUEST_ALL. 3. If any case in step 2 is marked with "Negative Reply", ACS would construct a PFX_INFO-NAK message to reply to the AER. Otherwise, a PFX_INFO-ACK message is constructed to reply the AD prefix information of all members marked with "Reply" to the AER. 5.2.3. Response of AD Prefix Information AD prefix information response includs two types. That is PFX_INFO- ACK and PFX_INFO-NAK. According to the request sent by AER, if some fields are wrong, ACS will reply NAK, in which the error code is "parameter error". If a non-existent member AD is queried, the error code is "the requested member AD does not exist", which defined as before will not be repeated. The following mainly introduces PFX_INFO-ACK response. ACS fills in the following values for each field: Xu, et al. Expires 23 November 2023 [Page 27] Internet-Draft savax-protocol May 2023 +=================+=============================================+ | Field | Value | +=================+=============================================+ | Version | 1 | +-----------------+---------------------------------------------+ | Alliance | The sub-trust alliance number. | +-----------------+---------------------------------------------+ | I Type | AD_PREFIX_INFO | +-----------------+---------------------------------------------+ | S Type | ACK: representing affirmative | | | acknowledgement. NAK: representing | | | negative acknowledgement. | +-----------------+---------------------------------------------+ | Operation | RENEW: replying the latest AD prefix | | | information to AER. | +-----------------+---------------------------------------------+ | Total Length | The length of this message. | +-----------------+---------------------------------------------+ | Number of | S Type = ACK: the number of API_Rec in Data | | Records | field. S Type = NAK: 0 | +-----------------+---------------------------------------------+ | Transaction | The last Transaction Number add 1. ACS | | Number | would maintain a global Transaction Number | | | for packets sent out to AER where I Type is | | | AD_PREFIX_INFO and ACS would keep it | | | increasing monotonic. | +-----------------+---------------------------------------------+ | Acknowledgement | The Transaction Number of the response | | Number | corresponding request. | +-----------------+---------------------------------------------+ | Data | S Type = ACK: One or more latest requested | | | API_Rec. S Type = NAK: a 32-bit error code | | | defined in Section 3. There is no boundary | | | identification between these API_Recs, | | | which requires that the implementation of | | | the protocol can process each record | | | sequentially until the end of this message. | +-----------------+---------------------------------------------+ Table 11 When receiving a non-RENEW PFX_INFO-ACK message which is the positive reply to the request of AD prefix sent from ACS to AER, if it holds that some fields are wrong, AER could send a request message to acquire the latest AD prefix information. Otherwise, AER would act as follows. Xu, et al. Expires 23 November 2023 [Page 28] Internet-Draft savax-protocol May 2023 1. AER SHOULD compare the Transaction Number in this packet with Transaction Number whose I Type is PFX_INFO received from the same ACS before. If bigger, AER would process them as follows. Otherwise, AER would discard this packet and send REG_INFO- RequestAll and PFX_INFO-RequestAll messages to acquire the lastest information. 2. AER processes every API_Rec: - If Action is ADD and the record does not exist in its maintained prefix list, AER would add this record to its prefix list. - If Action is ADD and the record exists in its maintained prefix list, AER would do nothing. - If Action is DEL and the record exists in its maintained prefix list, AER would remove this record from its prefix list after Effecting Time. 3. If a change is made in step 2, the update should take effect after the Effecting Time, which acts on the data plane. If the Effecting Time is earlier than the current time or is all 0, it will take effect immediately. AER acts as following when receiving a RENEW PFX_INFO-ACK message. When ACS initiates RENEW process, it would send a RENEW meesge with which the first bit of Operation field is 1. The second bit of Operation field identifies the begin of a procedure of RENEW and the third bit of Operation field identifies the end of a procedure of RENEW. ACS MUST NOT send a RENEW packet with which the first bit of Operation field is 0 in RENEW process. AER SHOULD uniformly process all packets in this RENEW process after receiving all RENEW packets. 1. AER SHOULD compare the Transaction Number in this packet with Transaction Number whose I Type is PFX_INFO received from the same ACS before. If bigger, AER WOULD process as step 2. Otherwise, AER would discard this message and send REG_INFO- RequestAll and PFX_INFO-RequestAll messages to acquire the lastest information. 2. AER processes every API_Rec. All Action in API_Recs is ADD during RENEW process. - If the record does not exist in its maintained prefix list, AER would add this record to its trust alliance list. - If the record exists in its maintained prefix list, AER would do nothing. - If there are some records in the original prefix list that do not appear in the Data field during this RENEW process, these records will be deleted immediately. 3. If a change is made in step 2, the update message should take effect after the Effecting Time, which acts on the data plane. If the Effecting Time is earlier than current time or is all 0, it will take effect immediately. Xu, et al. Expires 23 November 2023 [Page 29] Internet-Draft savax-protocol May 2023 When AER receives an PFX_INFO-NAK message, it could send REG_INFO- RequestAll and PFX_INFO-RequestAll messages to ACS to acquire the latest AD registration information and AD prefix information. 5.3. Deployment, Request and Response of State Machine Information 5.3.1. Deployment of State Machine Information State machine information deployment (SM_INFO-Deploy) is sent from ACS to AER. ACS fills in the following values for each field: Xu, et al. Expires 23 November 2023 [Page 30] Internet-Draft savax-protocol May 2023 +=================+===============================================+ | Field | Value | +=================+===============================================+ | Version | 1 | +-----------------+-----------------------------------------------+ | Alliance | The sub-trust alliance number. | +-----------------+-----------------------------------------------+ | I Type | SM_INFO | +-----------------+-----------------------------------------------+ | S Type | DEPLOYMENT | +-----------------+-----------------------------------------------+ | Operation | NULL: to publish the partial update of state | | | machine maintained by the pair of this AD and | | | another AD and Operation is RENEW: to publish | | | wholesome update of state machine maintained | | | by the pair of this AD and another AD. | +-----------------+-----------------------------------------------+ | Total Length | The length of this message. | +-----------------+-----------------------------------------------+ | Number of | The number of SMI_Recs in Data field | | Records | | +-----------------+-----------------------------------------------+ | Transaction | The last Transaction Number add 1. ACS would | | Number | maintain a global Transaction Number for | | | packets sent out to AER where I Type is | | | SM_INFO and ACS would keep it increasing | | | monotonic. | +-----------------+-----------------------------------------------+ | Acknowledgement | 0 | | Number | | +-----------------+-----------------------------------------------+ | Data | One or more SMI_Recs. There is no boundary | | | identification between these ARI_Recs, which | | | requires that the implementation of the | | | protocol can process each record sequentially | | | until the end of this message. | +-----------------+-----------------------------------------------+ Table 12 It should be noted that state machine is responding to a ordered AD pair. The state machine information mastered by ACS includes the state machine information from this AD to another member AD, and the state machine information from another member AD to this AD. When ACS deployment is partially updated, only some changed or newly added state machines are deployed. When ACS deploys the update of RENEW message, it is necessary to deploy all existing and updated information. For the same ordered AD pair, there cannot be two or Xu, et al. Expires 23 November 2023 [Page 31] Internet-Draft savax-protocol May 2023 more SMI_Recs using the same SM_ID in Data field. In addition, there are two actions for SMI_Rec: one is to add a SM whose SM_ID is bigger than current using state machine. The second is to modify an existing state machine whose SM_ID equals to current using state machine. Both of them are using Action ADD. Here we requires only Transition Interval and Expiring Time can be updated. When receiving a non-RENEW SM_INFO-Deploy message sent from ACS to AER, if it holds that some fields are wrong, for example, Action is DEL or SM_ID is smaller than current state machine in using, AER could send a request message to acquire the latest information. Otherwise, AER would act as follows. 1. AER SHOULD compare the Transaction Number in this packet with Transaction Number whose I Type is SM_INFO received from the same ACS before. If bigger, AER WOULD process them as step 2. Otherwise, AER would discard this packet and send REG_INFO- RequestAll and request messages to acquire the lastest information. 2. AER processes every SMI_Rec: - If SM_ID equals to the current using state machine, AER should update the state machine in use. - If SM_ID bigger than the current using state machine, AER should add this state machine to its list. 3. If a change is made in step 2, the update message should take effect after the Effecting Time, which acts on the data plane. If the Effecting Time is earlier than the current time or is all 0, it will take effect immediately. AER acts as following when receiving a RENEW SM_INFO-Deploy message. When ACS initiates RENEW process, it would send a RENEW meesge with which the first bit of Operation field is 1. The second bit of Operation field identifies the begin of a procedure of RENEW and the third bit of Operation field identifies the end of a procedure of RENEW. ACS MUST NOT send a RENEW packet with which the first bit of Operation field is 0 in RENEW process. AER SHOULD uniformly process all packets in this RENEW process after receiving all RENEW packets. 1. AER SHOULD compare the Transaction Number in this packet with Transaction Number whose I Type is SM_INFO received from the same ACS before. If bigger, AER WOULD process as step 2. Otherwise, AER would discard this message and send a request messages to acquire the lastest information. 2. AER processes every SMI_Rec. - If SM_ID equals to the current using state machine, AER should update the state machine in use. - If SM_ID bigger than the current using state machine, AER Xu, et al. Expires 23 November 2023 [Page 32] Internet-Draft savax-protocol May 2023 should add this state machine to its list. - If there are some records of state machines in use that do not appear in the Data field during this RENEW process, these state machines will be deleted immediately. 3. If a change is made in step 2, the update message should take effect after the Effecting Time, which acts on the data plane. If the Effecting Time is earlier than current time or is all 0, it will take effect immediately. 5.3.2. Request of State Machine Information State machine information request (SM_INFO-Request) is sent from AER to ACS. AER fills in the following values for each field: Xu, et al. Expires 23 November 2023 [Page 33] Internet-Draft savax-protocol May 2023 +=================+=================================================+ | Field | Value | +=================+=================================================+ | Version | 1 | +-----------------+-------------------------------------------------+ | Alliance | The sub-trust alliance number. | +-----------------+-------------------------------------------------+ | I Type | SM_INFO | +-----------------+-------------------------------------------------+ | S Type | REQUEST: querying the state machines | | | maintained by the pair of this AD to | | | another member AD and vice versa. These | | | member ADs are specified by ADID_Rec | | | defined in Data field. REQUEST_ALL: | | | querying all state machines maintained | | | by this AD with other member ADs. | +-----------------+-------------------------------------------------+ | Operation | NULL | +-----------------+-------------------------------------------------+ | Total Length | The length of this message. | +-----------------+-------------------------------------------------+ | Number of | S Type = REQUEST: the number of ADID_Rec | | Records | in Data field. S Type = REQUEST_ALL: 0. | +-----------------+-------------------------------------------------+ | Transaction | The last Transaction Number add 1. AER | | Number | would maintain a global Transaction | | | Number for packets sent out to ACS where | | | I Type is SM_INFO and AER would keep it | | | increasing monotonic. | +-----------------+-------------------------------------------------+ | Acknowledgement | 0 | | Number | | +-----------------+-------------------------------------------------+ | Data | S Type = REQUEST: One or more ADID_Recs. | | | S Type = REQUEST_ALL: none. There is no | | | boundary identification between these | | | ADID_Recs, which requires that the | | | implementation of the protocol can | | | process each record sequentially until | | | the end of this message. | +-----------------+-------------------------------------------------+ Table 13 For example, let this AD is AD1. When any ADID_Rec including in Data field, defined as AD2, it means that AER will request the SM(AD1, AD2) and SM(AD2, AD1). When ACS replies, it will reply these two state machines both. Xu, et al. Expires 23 November 2023 [Page 34] Internet-Draft savax-protocol May 2023 When receiving a SM_INFO-Request(All) message, if it holds that some fields are wrong, ACS could send a PFX_INFO-NAK. Otherwise, ACS would act as follows. The specific construction methods of SM_INFO- ACK and SM_INFO-NAK are described in secion 3.2.3.3. 1. ACS SHOULD compare the Transaction Number in this packet with Transaction Number whose I Type is SM_INFO received from the same AER before. If bigger, ACS WOULD process them as step 2. Otherwise, ACS would discard this packet and send a SM_INFO-NAK message. 2. ACS processes every ADID_Rec. If AD exists in the maintained trust alliance list, ACS would mark this record as "Reply". Otherwise, ACS wourld mark this rocord as "Negative Reply". Particularly, all records are marked with "Reply" when S Type is REQUEST_ALL. 3. If any case in step 2 is marked with "Negative Reply", ACS would construct a SM_INFO-NAK message to reply to the AER. Otherwise, a SM_INFO-ACK message is constructed to reply the state machine information of all members marked with "Reply" to the AER. 5.3.3. Response of State Machine Information State machine information response includs two types. That is SM_INFO-ACK and SM_INFO-NAK. Both of them are sent from ACS to AER. ACS fills in the following values for each field: Xu, et al. Expires 23 November 2023 [Page 35] Internet-Draft savax-protocol May 2023 +=================+=============================================+ | Field | Value | +=================+=============================================+ | Version | 1 | +-----------------+---------------------------------------------+ | Alliance | The sub-trust alliance number. | +-----------------+---------------------------------------------+ | I Type | SM_INFO | +-----------------+---------------------------------------------+ | S Type | ACK: representing affirmative | | | acknowledgement. NAK: representing | | | negative acknowledgement. | +-----------------+---------------------------------------------+ | Operation | RENEW: replying the latest state machine | | | information to AER. | +-----------------+---------------------------------------------+ | Total Length | The length of this message. | +-----------------+---------------------------------------------+ | Number of | S Type = ACK: the number of SMI_Recs in | | Records | Data field. S Type = NAK: 0. | +-----------------+---------------------------------------------+ | Transaction | The last Transaction Number add 1. ACS | | Number | would maintain a global Transaction Number | | | for packets sent to AER where I Type is | | | SM_INFO and would keep it increasing | | | monotonic. | +-----------------+---------------------------------------------+ | Acknowledgement | The Transaction Number of the response | | Number | corresponding request. | +-----------------+---------------------------------------------+ | Data | S Type = ACK: one or more latest requested | | | SMI_Rec. S Type = NAK: a 32-bit error code | | | defined in Section 3. There is no boundary | | | identification between these ADID_Recs, | | | which requires that the implementation of | | | the protocol can process each record | | | sequentially until the end of this message. | +-----------------+---------------------------------------------+ Table 14 When receiving a non-RENEW SM_INFO-ACK message which is the positive reply to the request of AD prefix sent from ACS to AER, if it holds that some fields are wrong, AER could send a request message to acquire the latest state machine information. Otherwise, AER would act as follows. 1. AER SHOULD compare the Transaction Number in this packet with Transaction Number whose I Type is PFX_INFO received from the same ACS before. If bigger, AER WOULD process them as step 2. Xu, et al. Expires 23 November 2023 [Page 36] Internet-Draft savax-protocol May 2023 Otherwise, AER would discard this packet and send a SM_INFO- RequestAll message to acquire the lastest information. 2. AER processes every SMI_Rec: - If SM_ID equals to the current using state machine, AER should update the state machine in use. - If SM_ID bigger than the current using state machine, AER should add this state machine to its list. 3. If a change is made in step 2, the update should take effect after the Effecting Time, which acts on the data plane. If the Effecting Time is earlier than the current time or is all 0, it will take effect immediately. AER acts as following when receiving a RENEW SM_INFO-ACK message. When ACS initiates RENEW process, it would send a RENEW meesge with which the first bit of Operation field is 1. The second bit of Operation field identifies the begin of a procedure of RENEW and the third bit of Operation field identifies the end of a procedure of RENEW. ACS MUST NOT send a RENEW packet with which the first bit of Operation field is 0 in RENEW process. AER SHOULD uniformly process all packets in this RENEW process after receiving all RENEW packets. 1. AER SHOULD compare the Transaction Number in this packet with Transaction Number whose I Type is SM_INFO received from the same ACS before. If bigger, AER WOULD process as step 2. Otherwise, AER would discard this message and send a SM_INFO-RequestAll message to acquire the lastest information. 2. AER processes every API_Rec. All Action in API_Recs is ADD during RENEW process. - If SM_ID equals to the current using state machine, AER should update the state machine in use. - If SM_ID bigger than the current using state machine, AER should add this state machine to its list. - If there are some records of state machines in use that do not appear in the Data field during this RENEW process, these state machines will be deleted immediately. 3. If a change is made in step 2, the update message should take effect after the Effecting Time, which acts on the data plane. If the Effecting Time is earlier than current time or is all 0, it will take effect immediately. When AER receives an SM_INFO-NAK message, it could send a SM_INFO- RequestAll message to ACS to acquire the latest state machine information. 5.4. Request and Response of Keep-alive Information In SAVA-X, ACS will periodically send Keep-alive request to query the availability of AER in SAVA-X mechanism. Xu, et al. Expires 23 November 2023 [Page 37] Internet-Draft savax-protocol May 2023 5.4.1. Request of Keep-alive Information Keep-alive information request (ALIVE_INFO-Request) is sent by ACS to test the viability of AER. AER would reply to ACS when receiving a ALIVE_INFO-Request message. ACS considers that AER has gone wrong if it does not receive a response from AER within 60 seconds and ACS notifies the AD administrator of the failure information by email. ACS would keep sending ALIVE_INFO-Request to the fault AER at the same time. The filling values of each field in ACS request are as follows: +=================+================================================+ | Field | Value | +=================+================================================+ | Version | 1 | +-----------------+------------------------------------------------+ | Alliance | The sub-trust alliance number. | +-----------------+------------------------------------------------+ | I Type | ALIVE_INFO | +-----------------+------------------------------------------------+ | S Type | REQUEST | +-----------------+------------------------------------------------+ | Operation | NULL | +-----------------+------------------------------------------------+ | Total Length | The length of this message. | +-----------------+------------------------------------------------+ | Number of | 0 | | Records | | +-----------------+------------------------------------------------+ | Transaction | The last Transaction Number add 1. ACS would | | Number | maintain a global Transaction Number for | | | packets sent to AER where I Type is ALIVE_INFO | | | and would keep it increasing monotonic. | +-----------------+------------------------------------------------+ | Acknowledgement | 0 | | Number | | +-----------------+------------------------------------------------+ | Data | None | +-----------------+------------------------------------------------+ Table 15 ACS considers that AER has gone wrong if it does not receive a response from AER within 60 seconds and ACS notifies the AD administrator of the failure information by email. ACS would consider that AER has recovered from failure when AER reply to the request correctly. ACS performs the following steps to update AER: Xu, et al. Expires 23 November 2023 [Page 38] Internet-Draft savax-protocol May 2023 1. Keep time synchronization between AER and ACS. 2. Deploy AD registration information, AD prefix information and state machine information to AER by the way of RENEW message. 5.4.2. Response of Keep-alive Information Keep-alive information response (ALIVE_INFO-Response) is sent by AER to reply the ALIVE_INFO-Request message. In response to ALIVE_INFO-Request, AER fills in the following values for each field in the response: +=================+================================================+ | Field | Value | +=================+================================================+ | Version | 1 | +-----------------+------------------------------------------------+ | Alliance | The sub-trust alliance number. | +-----------------+------------------------------------------------+ | I Type | ALIVE_INFO | +-----------------+------------------------------------------------+ | S Type | ACK | +-----------------+------------------------------------------------+ | Operation | NULL | +-----------------+------------------------------------------------+ | Total Length | The length of this message. | +-----------------+------------------------------------------------+ | Number of | 0 | | Records | | +-----------------+------------------------------------------------+ | Transaction | The last Transaction Number add 1. AER would | | Number | maintain a global Transaction Number for | | | packets sent to ACS where I Type is ALIVE_INFO | | | and would keep it increasing monotonic. | +-----------------+------------------------------------------------+ | Acknowledgement | 0 | | Number | | +-----------------+------------------------------------------------+ | Data | None | +-----------------+------------------------------------------------+ Table 16 Xu, et al. Expires 23 November 2023 [Page 39] Internet-Draft savax-protocol May 2023 6. Deployment of Tag Information Tag information deployment (TAG_INFO-Deploy) is sent from ACS to AER and AER would add, verify and remove the tag to packet. When using sub trust alliance level tags and AD_V tags, the primary address domain ACS needs to distribute these two tags to the ACS of the boundary address domain first, and then the boundary address domain ACS will distribute these tags to their respective address domains' AERs. The sub trust alliance tag is used in the data plane to cross different address domain levels. The AD_V tag is used in the data plane when it is sent from the current address domain to the boundary address domain. Standard TAG_INFO is used in the data plane at the same level and under the same direct parent address field. The three types of tags use the same message format as follows. 0 1 2 3 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 +-+-+-+-+-+-+-+-+ | Action | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Source ADID_Rec | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Destination ADID_Rec | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Tag Len | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ ~ TAG ~ +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Transition Interval | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ Figure 3: Format of tag information record. Action: 8-bit filed. 1 for add (ADD=1) and 2 for delete (DEL=2). Source ADID_Rec: Variable-length field. Refer to ADID_Rec in [savax-control]. Destination ADID_Rec: Variable-length field. Refer to ADID_Rec. Tag Len: The length of TAG. The equation for calculation is (Tag Len + 1) * 8 bits. The length of TAG MUST be multiple times of 8 bits. The maximum length is 128 bits and the minimum length is 32 bits. So the minimum of Tag Len is 0011. TAG: Variable-length field. The actual Tag or packet signature. Transition Interval: 32-bit, the milliseconds of interval of state Xu, et al. Expires 23 November 2023 [Page 40] Internet-Draft savax-protocol May 2023 transition. When ACS announce tag to ACS or AER, it fills in the following values for each field: +=================+===============================================+ | Field | Value | +=================+===============================================+ | Version | 1 | +-----------------+-----------------------------------------------+ | Alliance | The sub-trust alliance number. | +-----------------+-----------------------------------------------+ | I Type | TAG_INFO, ALLI_TAG_INFO or AD_V_TAG_INFO | +-----------------+-----------------------------------------------+ | S Type | ANNOUNCEMENT | +-----------------+-----------------------------------------------+ | Operation | NULL | +-----------------+-----------------------------------------------+ | Total Length | The length of this message. | +-----------------+-----------------------------------------------+ | Number of | The number of TAG_Rec in Data field. | | Records | | +-----------------+-----------------------------------------------+ | Transaction | ACS would maintain a global Transaction | | Number | Number for packets sent to ACS or AER where I | | | Type is TAG_INFO and would keep it increasing | | | monotonic. Acknowledgement Number is 0. | +-----------------+-----------------------------------------------+ | Acknowledgement | 0 | | Number | | +-----------------+-----------------------------------------------+ | Data | One or more TAG_Recs. There is no boundary | | | identification between these records, which | | | requires that the implementation of the | | | protocol can process each record sequentially | | | until the end of this message. | +-----------------+-----------------------------------------------+ Table 17 7. Security Considerations TBD. 8. IANA Considerations TBD. Xu, et al. Expires 23 November 2023 [Page 41] Internet-Draft savax-protocol May 2023 9. References 9.1. Normative References [RFC1760] Haller, N., "The S/KEY One-Time Password System", RFC 1760, DOI 10.17487/RFC1760, February 1995, . [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, DOI 10.17487/RFC2119, March 1997, . [RFC5210] Wu, J., Bi, J., Li, X., Ren, G., Xu, K., and M. Williams, "A Source Address Validation Architecture (SAVA) Testbed and Deployment Experience", RFC 5210, DOI 10.17487/RFC5210, June 2008, . [RFC8174] Leiba, B., "Ambiguity of Uppercase vs Lowercase in RFC 2119 Key Words", BCP 14, RFC 8174, DOI 10.17487/RFC8174, May 2017, . [RFC8200] Deering, S. and R. Hinden, "Internet Protocol, Version 6 (IPv6) Specification", STD 86, RFC 8200, DOI 10.17487/RFC8200, July 2017, . 9.2. Informative References [savax-control] Computer Science, Wu, J., Computer Science, and Institute for Network Sciences and Cyberspace, "Control Plane of Inter-Domain Source Address Validation Architecture", 2023. Acknowledgments TODO acknowledge. Authors' Addresses Ke Xu Computer Science, Tsinghua University Beijing China Email: xuke@tsinghua.edu.cn Xu, et al. Expires 23 November 2023 [Page 42] Internet-Draft savax-protocol May 2023 Jianping Wu Computer Science, Tsinghua University Beijing China Email: jianping@cernet.edu.cn Xiaoliang Wang Computer Science, Tsinghua University Beijing China Email: wangxiaoliang0623@foxmail.com Yangfei Guo Zhongguancun Laboratory Beijing China Email: guoyangfei@zgclab.edu.cn Xu, et al. Expires 23 November 2023 [Page 43]