QUIC R. Marx, Ed. Internet-Draft Akamai Intended status: Standards Track L. Niccolini, Ed. Expires: 9 January 2025 Meta M. Seemann, Ed. L. Pardue, Ed. Cloudflare 8 July 2024 QUIC event definitions for qlog draft-ietf-quic-qlog-quic-events-08 Abstract This document describes a qlog event schema containing concrete qlog event definitions and their metadata for the core QUIC protocol and selected extensions. Note to Readers Note to RFC editor: Please remove this section before publication. Feedback and discussion are welcome at https://github.com/quicwg/qlog (https://github.com/quicwg/qlog). Readers are advised to refer to the "editor's draft" at that URL for an up-to-date version of this document. Concrete examples of integrations of this schema in various programming languages can be found at https://github.com/quiclog/ qlog/ (https://github.com/quiclog/qlog/). 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." Marx, et al. Expires 9 January 2025 [Page 1] Internet-Draft QUIC event definitions for qlog July 2024 This Internet-Draft will expire on 9 January 2025. Copyright Notice Copyright (c) 2024 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 . . . . . . . . . . . . . . . . . . . . . . . . 4 1.1. Use of group IDs . . . . . . . . . . . . . . . . . . . . 5 1.2. Raw packet and frame information . . . . . . . . . . . . 5 1.3. Events not belonging to a single connection . . . . . . . 5 1.4. Notational Conventions . . . . . . . . . . . . . . . . . 6 2. Event Schema Definition . . . . . . . . . . . . . . . . . . . 6 2.1. Draft Event Schema Identification . . . . . . . . . . . . 6 3. QUIC Event Overview . . . . . . . . . . . . . . . . . . . . . 7 4. Connectivity events . . . . . . . . . . . . . . . . . . . . . 9 4.1. server_listening . . . . . . . . . . . . . . . . . . . . 9 4.2. connection_started . . . . . . . . . . . . . . . . . . . 10 4.3. connection_closed . . . . . . . . . . . . . . . . . . . . 11 4.4. connection_id_updated . . . . . . . . . . . . . . . . . . 12 4.5. spin_bit_updated . . . . . . . . . . . . . . . . . . . . 13 4.6. connection_state_updated . . . . . . . . . . . . . . . . 13 4.7. path_assigned . . . . . . . . . . . . . . . . . . . . . . 15 4.8. mtu_updated . . . . . . . . . . . . . . . . . . . . . . . 16 5. QUIC events . . . . . . . . . . . . . . . . . . . . . . . . . 16 5.1. version_information . . . . . . . . . . . . . . . . . . . 17 5.2. alpn_information . . . . . . . . . . . . . . . . . . . . 18 5.3. parameters_set . . . . . . . . . . . . . . . . . . . . . 19 5.4. parameters_restored . . . . . . . . . . . . . . . . . . . 20 5.5. packet_sent . . . . . . . . . . . . . . . . . . . . . . . 21 5.6. packet_received . . . . . . . . . . . . . . . . . . . . . 22 5.7. packet_dropped . . . . . . . . . . . . . . . . . . . . . 23 5.8. packet_buffered . . . . . . . . . . . . . . . . . . . . . 25 5.9. packets_acked . . . . . . . . . . . . . . . . . . . . . . 25 5.10. udp_datagrams_sent . . . . . . . . . . . . . . . . . . . 26 5.11. udp_datagrams_received . . . . . . . . . . . . . . . . . 27 5.12. udp_datagram_dropped . . . . . . . . . . . . . . . . . . 27 Marx, et al. Expires 9 January 2025 [Page 2] Internet-Draft QUIC event definitions for qlog July 2024 5.13. stream_state_updated . . . . . . . . . . . . . . . . . . 28 5.14. frames_processed . . . . . . . . . . . . . . . . . . . . 30 5.15. stream_data_moved . . . . . . . . . . . . . . . . . . . . 31 5.16. datagram_data_moved . . . . . . . . . . . . . . . . . . . 32 5.17. migration_state_updated . . . . . . . . . . . . . . . . . 33 6. Security Events . . . . . . . . . . . . . . . . . . . . . . . 34 6.1. key_updated . . . . . . . . . . . . . . . . . . . . . . . 34 6.2. key_discarded . . . . . . . . . . . . . . . . . . . . . . 35 7. Recovery events . . . . . . . . . . . . . . . . . . . . . . . 36 7.1. parameters_set . . . . . . . . . . . . . . . . . . . . . 36 7.2. metrics_updated . . . . . . . . . . . . . . . . . . . . . 37 7.3. congestion_state_updated . . . . . . . . . . . . . . . . 39 7.4. loss_timer_updated . . . . . . . . . . . . . . . . . . . 39 7.5. packet_lost . . . . . . . . . . . . . . . . . . . . . . . 40 7.6. marked_for_retransmit . . . . . . . . . . . . . . . . . . 41 7.7. ecn_state_updated . . . . . . . . . . . . . . . . . . . . 42 8. QUIC data field definitions . . . . . . . . . . . . . . . . . 42 8.1. QuicVersion . . . . . . . . . . . . . . . . . . . . . . . 42 8.2. ConnectionID . . . . . . . . . . . . . . . . . . . . . . 42 8.3. Owner . . . . . . . . . . . . . . . . . . . . . . . . . . 43 8.4. IPAddress and IPVersion . . . . . . . . . . . . . . . . . 43 8.5. PathEndpointInfo . . . . . . . . . . . . . . . . . . . . 43 8.6. PacketType . . . . . . . . . . . . . . . . . . . . . . . 44 8.7. PacketNumberSpace . . . . . . . . . . . . . . . . . . . . 44 8.8. PacketHeader . . . . . . . . . . . . . . . . . . . . . . 44 8.9. Token . . . . . . . . . . . . . . . . . . . . . . . . . . 45 8.10. Stateless Reset Token . . . . . . . . . . . . . . . . . . 46 8.11. KeyType . . . . . . . . . . . . . . . . . . . . . . . . . 46 8.12. ECN . . . . . . . . . . . . . . . . . . . . . . . . . . . 47 8.13. QUIC Frames . . . . . . . . . . . . . . . . . . . . . . . 47 8.13.1. PaddingFrame . . . . . . . . . . . . . . . . . . . . 48 8.13.2. PingFrame . . . . . . . . . . . . . . . . . . . . . 48 8.13.3. AckFrame . . . . . . . . . . . . . . . . . . . . . . 48 8.13.4. ResetStreamFrame . . . . . . . . . . . . . . . . . . 49 8.13.5. StopSendingFrame . . . . . . . . . . . . . . . . . . 50 8.13.6. CryptoFrame . . . . . . . . . . . . . . . . . . . . 50 8.13.7. NewTokenFrame . . . . . . . . . . . . . . . . . . . 50 8.13.8. StreamFrame . . . . . . . . . . . . . . . . . . . . 51 8.13.9. MaxDataFrame . . . . . . . . . . . . . . . . . . . . 51 8.13.10. MaxStreamDataFrame . . . . . . . . . . . . . . . . . 51 8.13.11. MaxStreamsFrame . . . . . . . . . . . . . . . . . . 51 8.13.12. DataBlockedFrame . . . . . . . . . . . . . . . . . . 52 8.13.13. StreamDataBlockedFrame . . . . . . . . . . . . . . . 52 8.13.14. StreamsBlockedFrame . . . . . . . . . . . . . . . . 52 8.13.15. NewConnectionIDFrame . . . . . . . . . . . . . . . . 52 8.13.16. RetireConnectionIDFrame . . . . . . . . . . . . . . 53 8.13.17. PathChallengeFrame . . . . . . . . . . . . . . . . . 53 8.13.18. PathResponseFrame . . . . . . . . . . . . . . . . . 53 Marx, et al. Expires 9 January 2025 [Page 3] Internet-Draft QUIC event definitions for qlog July 2024 8.13.19. ConnectionCloseFrame . . . . . . . . . . . . . . . . 54 8.13.20. HandshakeDoneFrame . . . . . . . . . . . . . . . . . 54 8.13.21. UnknownFrame . . . . . . . . . . . . . . . . . . . . 55 8.13.22. DatagramFrame . . . . . . . . . . . . . . . . . . . 55 8.13.23. TransportError . . . . . . . . . . . . . . . . . . . 55 8.13.24. ApplicationError . . . . . . . . . . . . . . . . . . 56 8.13.25. CryptoError . . . . . . . . . . . . . . . . . . . . 56 9. Security and Privacy Considerations . . . . . . . . . . . . . 57 10. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 57 11. References . . . . . . . . . . . . . . . . . . . . . . . . . 57 11.1. Normative References . . . . . . . . . . . . . . . . . . 57 11.2. Informative References . . . . . . . . . . . . . . . . . 59 Acknowledgements . . . . . . . . . . . . . . . . . . . . . . . . 59 Change Log . . . . . . . . . . . . . . . . . . . . . . . . . . . 59 Since draft-ietf-qlog-quic-events-06: . . . . . . . . . . . . . 59 Since draft-ietf-qlog-quic-events-05: . . . . . . . . . . . . . 60 Since draft-ietf-qlog-quic-events-04: . . . . . . . . . . . . . 60 Since draft-ietf-qlog-quic-events-03: . . . . . . . . . . . . . 60 Since draft-ietf-qlog-quic-events-02: . . . . . . . . . . . . . 60 Since draft-ietf-qlog-quic-events-01: . . . . . . . . . . . . . 61 Since draft-ietf-qlog-quic-events-00: . . . . . . . . . . . . . 61 Since draft-marx-qlog-event-definitions-quic-h3-02: . . . . . . 61 Since draft-marx-qlog-event-definitions-quic-h3-01: . . . . . . 61 Since draft-marx-qlog-event-definitions-quic-h3-00: . . . . . . 63 Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 63 1. Introduction This document defines a qlog event schema (Section 8 of [QLOG-MAIN]) containing concrete events for the core QUIC protocol (see [QUIC-TRANSPORT], [QUIC-RECOVERY], and [QUIC-TLS]) and some of its extensions (see [QUIC-DATAGRAM] and [GREASEBIT]). The event schema namespace quic is defined, containing the categories: connectivity (Section 4), security (Section 6), quic Section 5, and recovery Section 7. Across these categories multiple events derive from the qlog abstract Event class (Section 7 of [QLOG-MAIN]), each extending the "data" field and defining their "name" field values and semantics. Some data fields use complex datastructures. These are represented as enums or re-usable definitions, which are grouped together on the bottom of this document for clarity. When any event from this document is included in a qlog trace, the protocol_type qlog array field MUST contain an entry with the value "QUIC": $ProtocolType /= "QUIC" Marx, et al. Expires 9 January 2025 [Page 4] Internet-Draft QUIC event definitions for qlog July 2024 Figure 1: ProtocolType extension for QUIC 1.1. Use of group IDs When the qlog group_id field is used, it is recommended to use QUIC's Original Destination Connection ID (ODCID, the CID chosen by the client when first contacting the server), as this is the only value that does not change over the course of the connection and can be used to link more advanced QUIC packets (e.g., Retry, Version Negotiation) to a given connection. Similarly, the ODCID should be used as the qlog filename or file identifier, potentially suffixed by the vantagepoint type (For example, abcd1234_server.qlog would contain the server-side trace of the connection with ODCID abcd1234). 1.2. Raw packet and frame information QUIC packets always include an AEAD authentication tag at the end. In general, the length of the AEAD tag depends on the TLS cipher suite, although all cipher suites used in QUIC v1 use a 16 byte tag. For the purposes of calculating the lengths in fields of type RawInfo (as defined in [QLOG-MAIN]) related to QUIC packets, the AEAD tag is regarded as a trailer. 1.3. Events not belonging to a single connection A single qlog event trace is typically associated with a single QUIC connection. However, for several types of events (for example, a Section 5.7 event with trigger value of connection_unknown), it can be impossible to tie them to a specific QUIC connection, especially on the server. There are various ways to handle these events, each making certain tradeoffs between file size overhead, flexibility, ease of use, or ease of implementation. Some options include: * Log them in a separate endpoint-wide trace (or use a special group_id value) not associated with a single connection. * Log them in the most recently used trace. * Use additional heuristics for connection identification (for example use the four-tuple in addition to the Connection ID). * Buffer events until they can be assigned to a connection (for example for version negotiation and retry events). Marx, et al. Expires 9 January 2025 [Page 5] Internet-Draft QUIC event definitions for qlog July 2024 1.4. Notational Conventions The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in BCP 14 [RFC2119] [RFC8174] when, and only when, they appear in all capitals, as shown here. The event and data structure definitions in ths document are expressed in the Concise Data Definition Language [CDDL] and its extensions described in [QLOG-MAIN]. The following fields from [QLOG-MAIN] are imported and used: name, category, type, data, group_id, protocol_type, importance, RawInfo, and time-related fields. As is the case for [QLOG-MAIN], the qlog schema definitions in this document are intentionally agnostic to serialization formats. The choice of format is an implementation decision. 2. Event Schema Definition This document describes how the core QUIC protocol and selected extensions can be expressed in qlog using a newly defined event schema. Per the requirements in Section 8 of [QLOG-MAIN], this document registers the quic namespace and the following category identifiers and URIs. * connectivity - urn:ietf:params:qlog:events:quic#connectivity * security - urn:ietf:params:qlog:events:quic#security * quic - urn:ietf:params:qlog:events:quic#quic * recovery - urn:ietf:params:qlog:events:quic#recovery 2.1. Draft Event Schema Identification This section is to be removed before publishing as an RFC. Only implementations of the final, published RFC can use the events belonging to the category with the URIs urn:ietf:params:qlog:events:quic#connectivity, urn:ietf:params:qlog:events:quic#security, urn:ietf:params:qlog:events:quic#quic, and urn:ietf:params:qlog:events:quic#recovery. Until such an RFC exists, implementations MUST NOT identify themselves using this URI. Marx, et al. Expires 9 January 2025 [Page 6] Internet-Draft QUIC event definitions for qlog July 2024 Implementations of draft versions of the event schema MUST append the string "-" and the corresponding draft number to the URI. For example, draft 07 of this document is identified using the URI urn:ietf:params:qlog:events:quic#quic-07. The category identifier itself is not affected by this requirement. 3. QUIC Event Overview Table 1 summarizes the name value of each event type that is defined in this specification. +=======================================+============+==============+ | Name value | Importance | Definition | +=======================================+============+==============+ | connectivity:server_listening | Extra | Section 4.1 | +---------------------------------------+------------+--------------+ | connectivity:connection_started | Base | Section 4.2 | +---------------------------------------+------------+--------------+ | connectivity:connection_closed | Base | Section 4.3 | +---------------------------------------+------------+--------------+ | connectivity:connection_id_updated | Base | Section 4.4 | +---------------------------------------+------------+--------------+ | connectivity:spin_bit_updated | Base | Section 4.5 | +---------------------------------------+------------+--------------+ | connectivity:connection_state_updated | Base | Section 4.6 | +---------------------------------------+------------+--------------+ | connectivity:path_assigned | Base | Section 4.7 | +---------------------------------------+------------+--------------+ | connectivity:mtu_updated | Extra | Section 4.8 | +---------------------------------------+------------+--------------+ | quic:version_information | Core | Section 5.1 | +---------------------------------------+------------+--------------+ | quic:alpn_information | Core | Section 5.2 | +---------------------------------------+------------+--------------+ | quic:parameters_set | Core | Section 5.3 | +---------------------------------------+------------+--------------+ | quic:parameters_restored | Base | Section 5.4 | +---------------------------------------+------------+--------------+ | quic:packet_sent | Core | Section 5.5 | +---------------------------------------+------------+--------------+ | quic:packet_received | Core | Section 5.6 | +---------------------------------------+------------+--------------+ | quic:packet_dropped | Base | Section 5.7 | +---------------------------------------+------------+--------------+ | quic:packet_buffered | Base | Section 5.8 | +---------------------------------------+------------+--------------+ | quic:packets_acked | Extra | Section 5.9 | Marx, et al. Expires 9 January 2025 [Page 7] Internet-Draft QUIC event definitions for qlog July 2024 +---------------------------------------+------------+--------------+ | quic:udp_datagrams_sent | Extra | Section | | | | 5.10 | +---------------------------------------+------------+--------------+ | quic:udp_datagrams_received | Extra | Section | | | | 5.11 | +---------------------------------------+------------+--------------+ | quic:udp_datagram_dropped | Extra | Section | | | | 5.12 | +---------------------------------------+------------+--------------+ | quic:stream_state_updated | Base | Section | | | | 5.13 | +---------------------------------------+------------+--------------+ | quic:frames_processed | Extra | Section | | | | 5.14 | +---------------------------------------+------------+--------------+ | quic:stream_data_moved | Base | Section | | | | 5.15 | +---------------------------------------+------------+--------------+ | quic:datagram_data_moved | Base | Section | | | | 5.16 | +---------------------------------------+------------+--------------+ | quic:migration_state_updated | Extra | Section | | | | 5.17 | +---------------------------------------+------------+--------------+ | security:key_updated | Base | Section 6.1 | +---------------------------------------+------------+--------------+ | security:key_discarded | Base | Section 6.2 | +---------------------------------------+------------+--------------+ | recovery:parameters_set | Base | Section 7.1 | +---------------------------------------+------------+--------------+ | recovery:metrics_updated | Core | Section 7.2 | +---------------------------------------+------------+--------------+ | recovery:congestion_state_updated | Base | Section 7.3 | +---------------------------------------+------------+--------------+ | recovery:loss_timer_updated | Extra | Section 7.4 | +---------------------------------------+------------+--------------+ | recovery:packet_lost | Core | Section 7.5 | +---------------------------------------+------------+--------------+ | recovery:marked_for_retransmit | Extra | Section 7.6 | +---------------------------------------+------------+--------------+ | recovery:ecn_state_updated | Extra | Section 7.7 | +---------------------------------------+------------+--------------+ Table 1: QUIC Events Marx, et al. Expires 9 January 2025 [Page 8] Internet-Draft QUIC event definitions for qlog July 2024 QUIC events extend the $ProtocolEventData extension point defined in [QLOG-MAIN]. Additionally, they allow for direct extensibility by their use of per-event extension points via the $$ CDDL "group socket" syntax, as also described in [QLOG-MAIN]. QuicEventData = ConnectivityServerListening / ConnectivityConnectionStarted / ConnectivityConnectionClosed / ConnectivityConnectionIDUpdated / ConnectivitySpinBitUpdated / ConnectivityConnectionStateUpdated / ConnectivityPathAssigned / ConnectivityMTUUpdated / SecurityKeyUpdated / SecurityKeyDiscarded / QUICVersionInformation / QUICALPNInformation / QUICParametersSet / QUICParametersRestored / QUICPacketSent / QUICPacketReceived / QUICPacketDropped / QUICPacketBuffered / QUICPacketsAcked / QUICUDPDatagramsSent / QUICUDPDatagramsReceived / QUICUDPDatagramDropped / QUICStreamStateUpdated / QUICFramesProcessed / QUICStreamDataMoved / QUICDatagramDataMoved / RecoveryParametersSet / RecoveryMetricsUpdated / RecoveryCongestionStateUpdated / RecoveryLossTimerUpdated / RecoveryPacketLost $ProtocolEventData /= QuicEventData Figure 2: QuicEventData definition and ProtocolEventData extension 4. Connectivity events 4.1. server_listening Emitted when the server starts accepting connections. It has Extra importance level; see Section 9.2 of [QLOG-MAIN]. Marx, et al. Expires 9 January 2025 [Page 9] Internet-Draft QUIC event definitions for qlog July 2024 ConnectivityServerListening = { ? ip_v4: IPAddress ? ip_v6: IPAddress ? port_v4: uint16 ? port_v6: uint16 ; the server will always answer client initials with a retry ; (no 1-RTT connection setups by choice) ? retry_required: bool * $$connectivity-serverlistening-extension } Figure 3: ConnectivityServerListening definition Some QUIC stacks do not handle sockets directly and are thus unable to log IP and/or port information. 4.2. connection_started The connection_started event is used for both attempting (client- perspective) and accepting (server-perspective) new connections. Note that while there is overlap with the connection_state_updated event, this event is separate event in order to capture additional data that can be useful to log. It has Base importance level; see Section 9.2 of [QLOG-MAIN]. ConnectivityConnectionStarted = { ? ip_version: IPVersion src_ip: IPAddress dst_ip: IPAddress ; transport layer protocol ? protocol: text .default "QUIC" ? src_port: uint16 ? dst_port: uint16 ? src_cid: ConnectionID ? dst_cid: ConnectionID * $$connectivity-connectionstarted-extension } Figure 4: ConnectivityConnectionStarted definition Some QUIC stacks do not handle sockets directly and are thus unable to log IP and/or port information. Marx, et al. Expires 9 January 2025 [Page 10] Internet-Draft QUIC event definitions for qlog July 2024 4.3. connection_closed The connection_closed event is used for logging when a connection was closed, typically when an error or timeout occurred. It has Base importance level; see Section 9.2 of [QLOG-MAIN]. Note that this event has overlap with the connection_state_updated event, as well as the CONNECTION_CLOSE frame. However, in practice, when analyzing large deployments, it can be useful to have a single event representing a connection_closed event, which also includes an additional reason field to provide more information. Furthermore, it is useful to log closures due to timeouts, which are difficult to reflect using the other options. The connection_closed event is intended to be logged either when the local endpoint silently discards the connection due to an idle timeout, when a CONNECTION_CLOSE frame is sent (the connection enters the 'closing' state on the sender side), when a CONNECTION_CLOSE frame is received (the connection enters the 'draining' state on the receiver side) or when a Stateless Reset packet is received (the connection is discarded at the receiver side). Connectivity-related updates after this point (e.g., exiting a 'closing' or 'draining' state), should be logged using the connection_state_updated event instead. In QUIC there are two main connection-closing error categories: connection and application errors. They have well-defined error codes and semantics. Next to these however, there can be internal errors that occur that may or may not get mapped to the official error codes in implementation-specific ways. As such, multiple error codes can be set on the same event to reflect this. Marx, et al. Expires 9 January 2025 [Page 11] Internet-Draft QUIC event definitions for qlog July 2024 ConnectivityConnectionClosed = { ; which side closed the connection ? owner: Owner ? connection_code: $TransportError / CryptoError / uint32 ? application_code: $ApplicationError / uint32 ? internal_code: uint32 ? reason: text ? trigger: "idle_timeout" / "application" / "error" / "version_mismatch" / ; when received from peer "stateless_reset" / ; when it is unclear what triggered the CONNECTION_CLOSE "unspecified" * $$connectivity-connectionclosed-extension } Figure 5: ConnectivityConnectionClosed definition Loggers SHOULD use the most descriptive trigger for a connection_closed event that they are able to deduce. This is often clear at the peer closing the connection (and sending the CONNECTION_CLOSE), but can sometimes be more opaque at the receiving end. 4.4. connection_id_updated The connection_id_updated event is emitted when either party updates their current Connection ID. As this typically happens only sparingly over the course of a connection, using this event is more efficient than logging the observed CID with each and every packet_sent or packet_received events. It has Base importance level; see Section 9.2 of [QLOG-MAIN]. The connection_id_updated event is viewed from the perspective of the endpoint applying the new ID. As such, when the endpoint receives a new connection ID from the peer, the owner field will be "remote". When the endpoint updates its own connection ID, the owner field will be "local". Marx, et al. Expires 9 January 2025 [Page 12] Internet-Draft QUIC event definitions for qlog July 2024 ConnectivityConnectionIDUpdated = { owner: Owner ? old: ConnectionID ? new: ConnectionID * $$connectivity-connectionidupdated-extension } Figure 6: ConnectivityConnectionIDUpdated definition 4.5. spin_bit_updated The spin_bit_updated event conveys information about the QUIC latency spin bit; see Section 17.4 of [QUIC-TRANSPORT]. The event is emitted when the spin bit changes value, it SHOULD NOT be emitted if the spin bit is set without changing its value. It has Base importance level; see Section 9.2 of [QLOG-MAIN]. ConnectivitySpinBitUpdated = { state: bool * $$connectivity-spinbitupdated-extension } Figure 7: ConnectivitySpinBitUpdated definition 4.6. connection_state_updated The connection_state_updated event is used to track progress through QUIC's complex handshake and connection close procedures. It has Base importance level; see Section 9.2 of [QLOG-MAIN]. [QUIC-TRANSPORT] does not contain an exhaustive flow diagram with possible connection states nor their transitions (though some are explicitly mentioned, like the 'closing' and 'draining' states). As such, this document *non-exhaustively* defines those states that are most likely to be useful for debugging QUIC connections. QUIC implementations SHOULD mainly log the simplified BaseConnectionStates, adding the more fine-grained GranularConnectionStates when more in-depth debugging is required. Tools SHOULD be able to deal with both types equally. Marx, et al. Expires 9 January 2025 [Page 13] Internet-Draft QUIC event definitions for qlog July 2024 ConnectivityConnectionStateUpdated = { ? old: $ConnectionState new: $ConnectionState * $$connectivity-connectionstateupdated-extension } BaseConnectionStates = ; Initial packet sent/received "attempted" / ; Handshake packet sent/received "handshake_started" / ; Both sent a TLS Finished message and verified the peer's TLS Finished message ; 1-RTT packets can be sent ; RFC 9001 Section 4.1.1 "handshake_complete" / ; CONNECTION_CLOSE sent/received, stateless reset received or idle timeout "closed" GranularConnectionStates = ; RFC 9000 Section 8.1 ; client sent Handshake packet OR ; client used connection ID chosen by the server OR ; client used valid address validation token "peer_validated" / ; 1-RTT data can be sent by the server, but handshake is not done yet ; (server has sent TLS Finished; sometimes called 0.5 RTT data) "early_write" / ; HANDSHAKE_DONE sent/received. ; RFC 9001 Section 4.1.2 "handshake_confirmed" / ; CONNECTION_CLOSE sent "closing" / ; CONNECTION_CLOSE received "draining" / ; draining or closing period done, connection state discarded "closed" $ConnectionState /= BaseConnectionStates / GranularConnectionStates Marx, et al. Expires 9 January 2025 [Page 14] Internet-Draft QUIC event definitions for qlog July 2024 Figure 8: ConnectivityConnectionStateUpdated definition The connection_state_changed event has some overlap with the connection_closed and connection_started events, and the handling of various frames (for example in a packet_received event). Still, it can be useful to log these logical state transitions separately, especially if they map to an internal implementation state machine, to explicitly track progress. As such, implementations are allowed to use other ConnectionState values that adhere more closely to their internal logic. Tools SHOULD be able to deal with these custom states in a similar way to the pre-defined states in this document. 4.7. path_assigned Importance: Base This event is used to associate a single PathID's value with other parameters that describe a unique network path. As described in [QLOG-MAIN], each qlog event can be linked to a single network path by means of the top-level "path" field, whose value is a PathID. However, since it can be cumbersome to encode additional path metadata (such as IP addresses or Connection IDs) directly into the PathID, this event allows such an association to happen separately. As such, PathIDs can be short and unique, and can even be updated to be associated with new metadata as the connection's state evolves. Definition: ConnectivityPathAssigned = { path_id: PathID ; the information for traffic going towards the remote receiver ? path_remote: PathEndpointInfo ; the information for traffic coming in at the local endpoint ? path_local: PathEndpointInfo * $$connectivity-pathassigned-extension } Figure 9: ConnectivityPathAssigned definition Marx, et al. Expires 9 January 2025 [Page 15] Internet-Draft QUIC event definitions for qlog July 2024 Choosing the different path_id values is left up to the implementation. Some options include using a uniquely incrementing integer, using the (first) Destination Connection ID associated with a path (or its sequence number), or using (a hash of) the two endpoint IP addresses. It is important to note that the empty string ("") is a valid PathID and that it is the default assigned to events that do not explicitly set a "path" field. Put differently, the initial path of a QUIC connection on which the handshake occurs (see also Section 4.2) is implicitly associated with the PathID with value "". Associating metadata with this default path is possible by logging the ConnectivityPathAssigned event with a value of "" for the path_id field. As paths and their metadata can evolve over time, multiple ConnectivityPathAssigned events can be emitted for each unique PathID. The latest event contains the most up-to-date information for that PathID. As such, the first time a PathID is seen in a ConnectivityPathAssigned event, it is an indication that the path is created. Subsequent occurrences indicate the path is updated, while a final occurrence with both path_local and path_remote fields omitted implicitly indicates the path has been abandoned. 4.8. mtu_updated The mtu_updated event indicates that the estimated Path MTU was updated. This happens as part of the Path MTU discovery process. It has Extra importance level; see Section 9.2 of [QLOG-MAIN]. ConnectivityMTUUpdated = { ? old: uint32 new: uint32 ; at some point, MTU discovery stops, as a "good enough" ; packet size has been found ? done: bool .default false * $$connectivity-mtuupdated-extension } Figure 10: ConnectivityMTUUpdated definition 5. QUIC events Marx, et al. Expires 9 January 2025 [Page 16] Internet-Draft QUIC event definitions for qlog July 2024 5.1. version_information The version_information event supports QUIC version negotiation; see Section 6 of [QUIC-TRANSPORT]. It has Core importance level; see Section 9.2 of [QLOG-MAIN]. QUIC endpoints each have their own list of QUIC versions they support. The client uses the most likely version in their first initial. If the server does not support that version, it replies with a Version Negotiation packet, which contains its supported versions. From this, the client selects a version. The version_information event aggregates all this information in a single event type. It also allows logging of supported versions at an endpoint without actual version negotiation needing to happen. QUICVersionInformation = { ? server_versions: [+ QuicVersion] ? client_versions: [+ QuicVersion] ? chosen_version: QuicVersion * $$quic-versioninformation-extension } Figure 11: QUICVersionInformation definition Intended use: * When sending an initial, the client logs this event with client_versions and chosen_version set * Upon receiving a client initial with a supported version, the server logs this event with server_versions and chosen_version set * Upon receiving a client initial with an unsupported version, the server logs this event with server_versions set and client_versions to the single-element array containing the client's attempted version. The absence of chosen_version implies no overlap was found * Upon receiving a version negotiation packet from the server, the client logs this event with client_versions set and server_versions to the versions in the version negotiation packet and chosen_version to the version it will use for the next initial packet. If the client receives a set of server_versions with no viable overlap with its own supported versions, this event should be logged without the chosen_version set Marx, et al. Expires 9 January 2025 [Page 17] Internet-Draft QUIC event definitions for qlog July 2024 5.2. alpn_information The alpn_information event supports Application-Layer Protocol Negotiation (ALPN) over the QUIC transport; see [RFC7301] and Section 7.4 of [QUIC-TRANSPORT]. It has Core importance level; see Section 9.2 of [QLOG-MAIN]. QUIC endpoints are configured with a list of supported ALPN identifiers. Clients send the list in a TLS ClientHello, and servers match against their list. On success, a single ALPN identifier is chosen and sent back in a TLS ServerHello. If no match is found, the connection is closed. ALPN identifiers are byte sequences, that may be possible to present as UTF-8. The ALPNIdentifier` type supports either format. Implementations SHOULD log at least one format, but MAY log both or none. QUICALPNInformation = { ? server_alpns: [* ALPNIdentifier] ? client_alpns: [* ALPNIdentifier] ? chosen_alpn: ALPNIdentifier * $$quic-alpninformation-extension } ALPNIdentifier = { ? byte_value: hexstring ? string_value: text } Figure 12: QUICALPNInformation definition Intended use: * When sending an initial, the client logs this event with client_alpns set * When receiving an initial with a supported alpn, the server logs this event with server_alpns set, client_alpns equalling the client-provided list, and chosen_alpn to the value it will send back to the client. * When receiving an initial with an alpn, the client logs this event with chosen_alpn to the received value. Marx, et al. Expires 9 January 2025 [Page 18] Internet-Draft QUIC event definitions for qlog July 2024 * Alternatively, a client can choose to not log the first event, but wait for the receipt of the server initial to log this event with both client_alpns and chosen_alpn set. 5.3. parameters_set The parameters_set event groups settings from several different sources (transport parameters, TLS ciphers, etc.) into a single event. This is done to minimize the amount of events and to decouple conceptual setting impacts from their underlying mechanism for easier high-level reasoning. The event has Core importance level; see Section 9.2 of [QLOG-MAIN]. Most of these settings are typically set once and never change. However, they are usually set at different times during the connection, so there will regularly be several instances of this event with different fields set. Note that some settings have two variations (one set locally, one requested by the remote peer). This is reflected in the owner field. As such, this field MUST be correct for all settings included a single event instance. If you need to log settings from two sides, you MUST emit two separate event instances. In the case of connection resumption and 0-RTT, some of the server's parameters are stored up-front at the client and used for the initial connection startup. They are later updated with the server's reply. In these cases, utilize the separate parameters_restored event to indicate the initial values, and this event to indicate the updated values, as normal. QUICParametersSet = { ? owner: Owner ; true if valid session ticket was received ? resumption_allowed: bool ; true if early data extension was enabled on the TLS layer ? early_data_enabled: bool ; e.g., "AES_128_GCM_SHA256" ? tls_cipher: text ; RFC9000 ? original_destination_connection_id: ConnectionID ? initial_source_connection_id: ConnectionID ? retry_source_connection_id: ConnectionID ? stateless_reset_token: StatelessResetToken Marx, et al. Expires 9 January 2025 [Page 19] Internet-Draft QUIC event definitions for qlog July 2024 ? disable_active_migration: bool ? max_idle_timeout: uint64 ? max_udp_payload_size: uint32 ? ack_delay_exponent: uint16 ? max_ack_delay: uint16 ? active_connection_id_limit: uint32 ? initial_max_data: uint64 ? initial_max_stream_data_bidi_local: uint64 ? initial_max_stream_data_bidi_remote: uint64 ? initial_max_stream_data_uni: uint64 ? initial_max_streams_bidi: uint64 ? initial_max_streams_uni: uint64 ? preferred_address: PreferredAddress ; RFC9221 ? max_datagram_frame_size: uint64 ; RFC9287 ; true if present, absent or false if extension not negotiated ? grease_quic_bit: bool * $$quic-parametersset-extension } PreferredAddress = { ip_v4: IPAddress ip_v6: IPAddress port_v4: uint16 port_v6: uint16 connection_id: ConnectionID stateless_reset_token: StatelessResetToken } Figure 13: QUICParametersSet definition 5.4. parameters_restored When using QUIC 0-RTT, clients are expected to remember and restore the server's transport parameters from the previous connection. The parameters_restored event is used to indicate which parameters were restored and to which values when utilizing 0-RTT. It has Base importance level; see Section 9.2 of [QLOG-MAIN]. Note that not all transport parameters should be restored (many are even prohibited from being re-utilized). The ones listed here are the ones expected to be useful for correct 0-RTT usage. Marx, et al. Expires 9 January 2025 [Page 20] Internet-Draft QUIC event definitions for qlog July 2024 QUICParametersRestored = { ? disable_active_migration: bool ? max_idle_timeout: uint64 ? max_udp_payload_size: uint32 ? active_connection_id_limit: uint32 ? initial_max_data: uint64 ? initial_max_stream_data_bidi_local: uint64 ? initial_max_stream_data_bidi_remote: uint64, ? initial_max_stream_data_uni: uint64 ? initial_max_streams_bidi: uint64 ? initial_max_streams_uni: uint64 * $$quic-parametersrestored-extension } Figure 14: QUICParametersRestored definition 5.5. packet_sent The packet_sent event indicates a QUIC-level packet was sent. It has Core importance level; see Section 9.2 of [QLOG-MAIN]. Marx, et al. Expires 9 January 2025 [Page 21] Internet-Draft QUIC event definitions for qlog July 2024 QUICPacketSent = { header: PacketHeader ? frames: [* $QuicFrame] ; only if header.packet_type === "stateless_reset" ; is always 128 bits in length. ? stateless_reset_token: StatelessResetToken ; only if header.packet_type === "version_negotiation" ? supported_versions: [+ QuicVersion] ? raw: RawInfo ? datagram_id: uint32 ? is_mtu_probe_packet: bool .default false ? trigger: ; RFC 9002 Section 6.1.1 "retransmit_reordered" / ; RFC 9002 Section 6.1.2 "retransmit_timeout" / ; RFC 9002 Section 6.2.4 "pto_probe" / ; RFC 9002 6.2.3 "retransmit_crypto" / ; needed for some CCs to figure out bandwidth allocations ; when there are no normal sends "cc_bandwidth_probe" * $$quic-packetsent-extension } Figure 15: QUICPacketSent definition The encryption_level and packet_number_space are not logged explicitly: the header.packet_type specifies this by inference (assuming correct implementation) The datagram_id field is used to track packet coalescing, see Section 5.10. 5.6. packet_received The packet_received event indicates a QUIC-level packet was received. It has Core importance level; see Section 9.2 of [QLOG-MAIN]. Marx, et al. Expires 9 January 2025 [Page 22] Internet-Draft QUIC event definitions for qlog July 2024 QUICPacketReceived = { header: PacketHeader ? frames: [* $QuicFrame] ; only if header.packet_type === "stateless_reset" ; Is always 128 bits in length. ? stateless_reset_token: StatelessResetToken ; only if header.packet_type === "version_negotiation" ? supported_versions: [+ QuicVersion] ? raw: RawInfo ? datagram_id: uint32 ? trigger: ; if packet was buffered because it couldn't be ; decrypted before "keys_available" * $$quic-packetreceived-extension } Figure 16: QUICPacketReceived definition The encryption_level and packet_number_space are not logged explicitly: the header.packet_type specifies this by inference (assuming correct implementation). The datagram_id field is used to track packet coalescing, see Section 5.10. 5.7. packet_dropped The packet_dropped event indicates a QUIC-level packet was dropped. It has Base importance level; see Section 9.2 of [QLOG-MAIN]. The trigger field indicates a general reason category for dropping the packet, while the details field can contain additional implementation-specific information. Marx, et al. Expires 9 January 2025 [Page 23] Internet-Draft QUIC event definitions for qlog July 2024 QUICPacketDropped = { ; Primarily packet_type should be filled here, ; as other fields might not be decrypteable or parseable ? header: PacketHeader ? raw: RawInfo ? datagram_id: uint32 ? details: {* text => any} ? trigger: "internal_error" / "rejected" / "unsupported" / "invalid" / "duplicate" / "connection_unknown" / "decryption_failure" / "key_unavailable" / "general" * $$quic-packetdropped-extension } Figure 17: QUICPacketDropped definition Some example situations for each of the trigger categories include: * internal_error: not initialized, out of memory * rejected: limits reached, DDoS protection, unwilling to track more paths, duplicate packet * unsupported: unknown or unsupported version. See also Section 1.3. * invalid: packet parsing or validation error * duplicate: duplicate packet * connection_unknown: packet does not relate to a known connection or Connection ID * decryption_failure: decryption failed * key_unavailable: decryption key was unavailable * general: situations not clearly covered in the other categories Marx, et al. Expires 9 January 2025 [Page 24] Internet-Draft QUIC event definitions for qlog July 2024 The datagram_id field is used to track packet coalescing, see Section 5.10. 5.8. packet_buffered The packet_buffered event is emitted when a packet is buffered because it cannot be processed yet. Typically, this is because the packet cannot be parsed yet, and thus only the full packet contents can be logged when it was parsed in a packet_received event. The event has Base importance level; see Section 9.2 of [QLOG-MAIN]. QUICPacketBuffered = { ; primarily packet_type and possible packet_number should be ; filled here as other elements might not be available yet ? header: PacketHeader ? raw: RawInfo ? datagram_id: uint32 ? trigger: ; indicates the parser cannot keep up, temporarily buffers ; packet for later processing "backpressure" / ; if packet cannot be decrypted because the proper keys were ; not yet available "keys_unavailable" * $$quic-packetbuffered-extension } Figure 18: QUICPacketBuffered definition The datagram_id field is used to track packet coalescing, see Section 5.10. 5.9. packets_acked The packets_acked event is emitted when a (group of) sent packet(s) is acknowledged by the remote peer _for the first time_. It has Extra importance level; see Section 9.2 of [QLOG-MAIN]. This information could also be deduced from the contents of received ACK frames. However, ACK frames require additional processing logic to determine when a given packet is acknowledged for the first time, as QUIC uses ACK ranges which can include repeated ACKs. Additionally, this event can be used by implementations that do not log frame contents. Marx, et al. Expires 9 January 2025 [Page 25] Internet-Draft QUIC event definitions for qlog July 2024 QUICPacketsAcked = { ? packet_number_space: $PacketNumberSpace ? packet_numbers: [+ uint64] * $$quic-packetsacked-extension } Figure 19: QUICPacketsAcked definition If packet_number_space is omitted, it assumes the default value of application_data, as this is by far the most prevalent packet number space a typical QUIC connection will use. 5.10. udp_datagrams_sent The datagrams_sent event indicates when one or more UDP-level datagrams are passed to the underlying network socket. This is useful for determining how QUIC packet buffers are drained to the OS. The event has Extra importance level; see Section 9.2 of [QLOG-MAIN]. QUICUDPDatagramsSent = { ; to support passing multiple at once ? count: uint16 ; The RawInfo fields do not include the UDP headers, ; only the UDP payload ? raw: [+ RawInfo] ; ECN bits in the IP header ; if not set, defaults to the value used on the last ; QUICDatagramsSent event ? ecn: [+ ECN] ? datagram_ids: [+ uint32] * $$quic-udpdatagramssent-extension } Figure 20: QUICUDPDatagramsSent definition Since QUIC implementations rarely control UDP logic directly, the raw data excludes UDP-level headers in all RawInfo fields. Multiple QUIC packets can be coalesced in a single UDP datagram, especially during the handshake (see Section 12.2 of [QUIC-TRANSPORT]). However, neither QUIC nor UDP themselves provide an explicit mechanism to track this behaviour. To make it possible Marx, et al. Expires 9 January 2025 [Page 26] Internet-Draft QUIC event definitions for qlog July 2024 for implementations to track coalescing across packet-level and datagram-level qlog events, this document defines a qlog-specific mechanism for tracking coalescing across packet-level and datagram- level qlog events: a "datagram identifier" carried in datagram_id fields. qlog implementations that want to track coalescing can use this mechanism, where multiple events sharing the same datagram_id indicate they were coalesced in the same UDP datagram. The selection of specific and locally-unique datagram_id values is an implementation choice. 5.11. udp_datagrams_received When one or more UDP-level datagrams are received from the socket. This is useful for determining how datagrams are passed to the user space stack from the OS. The event has Extra importance level; see Section 9.2 of [QLOG-MAIN]. QUICUDPDatagramsReceived = { ; to support passing multiple at once ? count: uint16 ; The RawInfo fields do not include the UDP headers, ; only the UDP payload ? raw: [+ RawInfo] ; ECN bits in the IP header ; if not set, defaults to the value on the last ; QUICDatagramsReceived event ? ecn: [+ ECN] ? datagram_ids: [+ uint32] * $$quic-udpdatagramsreceived-extension } Figure 21: QUICUDPDatagramsReceived definition The datagram_ids field is used to track packet coalescing, see Section 5.10. 5.12. udp_datagram_dropped When a UDP-level datagram is dropped. This is typically done if it does not contain a valid QUIC packet. If it does, but the QUIC packet is dropped for other reasons, the packet_dropped event (Section 5.7) should be used instead. The event has Extra importance level; see Section 9.2 of [QLOG-MAIN]. Marx, et al. Expires 9 January 2025 [Page 27] Internet-Draft QUIC event definitions for qlog July 2024 QUICUDPDatagramDropped = { ; The RawInfo fields do not include the UDP headers, ; only the UDP payload ? raw: RawInfo * $$quic-udpdatagramdropped-extension } Figure 22: QUICUDPDatagramDropped definition 5.13. stream_state_updated The stream_state_updated event is emitted whenever the internal state of a QUIC stream is updated; see Section 3 of [QUIC-TRANSPORT]. Most of this can be inferred from several types of frames going over the wire, but it's much easier to have explicit signals for these state changes. The event has Base importance level; see Section 9.2 of [QLOG-MAIN]. Marx, et al. Expires 9 January 2025 [Page 28] Internet-Draft QUIC event definitions for qlog July 2024 StreamType = "unidirectional" / "bidirectional" QUICStreamStateUpdated = { stream_id: uint64 ; mainly useful when opening the stream ? stream_type: StreamType ? old: $StreamState new: $StreamState ? stream_side: "sending" / "receiving" * $$quic-streamstateupdated-extension } BaseStreamStates = "idle" / "open" / "closed" GranularStreamStates = ; bidirectional stream states, RFC 9000 Section 3.4. "half_closed_local" / "half_closed_remote" / ; sending-side stream states, RFC 9000 Section 3.1. "ready" / "send" / "data_sent" / "reset_sent" / "reset_received" / ; receive-side stream states, RFC 9000 Section 3.2. "receive" / "size_known" / "data_read" / "reset_read" / ; both-side states "data_received" / ; qlog-defined: memory actually freed "destroyed" $StreamState /= BaseStreamStates / GranularStreamStates Figure 23: QUICStreamStateUpdated definition QUIC implementations SHOULD mainly log the simplified (HTTP/2-alike) BaseStreamStates instead of the more fine-grained GranularStreamStates. These latter ones are mainly for more in-depth debugging. Tools SHOULD be able to deal with both types equally. Marx, et al. Expires 9 January 2025 [Page 29] Internet-Draft QUIC event definitions for qlog July 2024 5.14. frames_processed The frame_processed event is intended to prevent a large proliferation of specific purpose events (e.g., packets_acknowledged, flow_control_updated, stream_data_received). It has Extra importance level; see Section 9.2 of [QLOG-MAIN]. Implementations have the opportunity to (selectively) log this type of signal without having to log packet-level details (e.g., in packet_received). Since for almost all cases, the effects of applying a frame to the internal state of an implementation can be inferred from that frame's contents, these events are aggregated into this single frames_processed event. The frame_processed event can be used to signal internal state change not resulting directly from the actual "parsing" of a frame (e.g., the frame could have been parsed, data put into a buffer, then later processed, then logged with this event). The packet_received event can convey all constituent frames. It is not expected that the frames_processed event will also be used for a redundant purpose. Rather, implementations can use this event to avoid having to log full packets or to convey extra information about when frames are processed (for example, if frame processing is deferred for any reason). Note that for some events, this approach will lose some information (e.g., for which encryption level are packets being acknowledged?). If this information is important, the packet_received event can be used instead. In some implementations, it can be difficult to log frames directly, even when using packet_sent and packet_received events. For these cases, the frames_processed event also contains the packet_numbers field, which can be used to more explicitly link this event to the packet_sent/received events. The field is an array, which supports using a single frames_processed event for multiple frames received over multiple packets. To map between frames and packets, the position and order of entries in the frames and packet_numbers is used. If the optional packet_numbers field is used, each frame MUST have a corresponding packet number at the same index. QUICFramesProcessed = { frames: [* $QuicFrame] ? packet_numbers: [* uint64] * $$quic-framesprocessed-extension } Marx, et al. Expires 9 January 2025 [Page 30] Internet-Draft QUIC event definitions for qlog July 2024 Figure 24: QUICFramesProcessed definition For example, an instance of the frames_processed event that represents four STREAM frames received over two packets would have the fields serialized as: "frames":[ {"frame_type":"stream","stream_id":0,"offset":0,"length":500}, {"frame_type":"stream","stream_id":0,"offset":500,"length":200}, {"frame_type":"stream","stream_id":1,"offset":0,"length":300}, {"frame_type":"stream","stream_id":1,"offset":300,"length":50} ], "packet_numbers":[ 1, 1, 2, 2 ] 5.15. stream_data_moved The stream_data_moved event is used to indicate when QUIC stream data moves between the different layers. This helps make clear the flow of data, how long data remains in various buffers, and the overheads introduced by individual layers. The event has Base importance level; see Section 9.2 of [QLOG-MAIN]. For example, it can be useful to understand when when data moves from an application protocol (e.g., HTTP) to QUIC stream buffers and vice versa. Similarly, when data moves from the application protocol layer into a user-facing application such as a web browser. The stream_data_moved event can provide insight into whether received data on a QUIC stream is moved to the application protocol immediately (for example per received packet) or in larger batches (for example, all QUIC packets are processed first and afterwards the application layer reads from the streams with newly available data). This can help identify bottlenecks, flow control issues, or scheduling problems. The additional_info field supports optional logging of information related to the stream state. For example, an application layer that moves data into transport and simultaneously ends the stream, can log fin_set. As another example, a transport layer that has received an instruction to reset a stream can indicate this to the application layer using reset_stream. In both cases, the length-carrying fields (length or raw) can be omitted or contain zero values. Marx, et al. Expires 9 January 2025 [Page 31] Internet-Draft QUIC event definitions for qlog July 2024 This event is only for data in QUIC streams. For data in QUIC Datagram Frames, see the datagram_data_moved event defined in Section 5.16. QUICStreamDataMoved = { ? stream_id: uint64 ? offset: uint64 ; byte length of the moved data ? length: uint64 ? from: $DataLocation ? to: $DataLocation ? additional_info: $DataMovedAdditionalInfo ? raw: RawInfo * $$quic-streamdatamoved-extension } $DataLocation /= "user" / "application" / "transport" / "network" $DataMovedAdditionalInfo /= "fin_set" / "stream_reset" Figure 25: QUICStreamDataMoved definition 5.16. datagram_data_moved The datagram_data_moved event is used to indicate when QUIC Datagram Frame data (see [RFC9221]) moves between the different layers. This helps make clear the flow of data, how long data remains in various buffers, and the overheads introduced by individual layers. The event has Base importance level; see Section 9.2 of [QLOG-MAIN]. For example, passing from the application protocol (e.g., WebTransport) to QUIC Datagram Frame buffers and vice versa. Similarly, when data moves from the application protocol layer into a user-facing application such as a web browser. The datagram_data_moved event can provide insight into whether received data in a QUIC Datagram Frame is moved to the application protocol immediately (for example per received packet) or in larger batches (for example, all QUIC packets are processed first and Marx, et al. Expires 9 January 2025 [Page 32] Internet-Draft QUIC event definitions for qlog July 2024 afterwards the application layer reads all Datagrams at once). This can help identify bottlenecks, flow control issues, or scheduling problems. This event is only for data in QUIC Datagram Frames. For data in QUIC streams, see the stream_data_moved event defined in Section 5.15. QUICDatagramDataMoved = { ; byte length of the moved data ? length: uint64 ? from: $DataLocation ? to: $DataLocation ? raw: RawInfo * $$quic-datagramdatamoved-extension } Figure 26: QUICDatagramDataMoved definition 5.17. migration_state_updated Importance: Extra Use to provide additional information when attempting (client-side) connection migration. While most details of the QUIC connection migration process can be inferred by observing the PATH_CHALLENGE and PATH_RESPONSE frames, in combination with the ConnectivityPathAssigned event, it can be useful to explicitly log the progression of the migration and potentially made decisions in a single location/event. Generally speaking, connection migration goes through two phases: a probing phase (which is not always needed/present), and a migration phase (which can be abandoned upon error). Implementations that log per-path information in a QUICMigrationStateUpdated, SHOULD also emit QUICPathAssigned events, to serve as a ground-truth source of information. Definition: Marx, et al. Expires 9 January 2025 [Page 33] Internet-Draft QUIC event definitions for qlog July 2024 QUICMigrationStateUpdated = { ? old: MigrationState new: MigrationState ? path_id: PathID ; the information for traffic going towards the remote receiver ? path_remote: PathEndpointInfo ; the information for traffic coming in at the local endpoint ? path_local: PathEndpointInfo * $$quic-migrationstateupdated-extension } ; Note that MigrationState does not describe a full state machine ; These entries are not necessarily chronological, ; nor will they always all appear during ; a connection migration attempt. MigrationState = ; probing packets are sent, migration not initiated yet "probing_started" / ; did not get reply to probing packets, ; discarding path as an option "probing_abandoned" / ; received reply to probing packets, path is migration candidate "probing_successful" / ; non-probing packets are sent, attempting migration "migration_started" / ; something went wrong during the migration, abandoning attempt "migration_abandoned" / ; new path is now fully used, old path is discarded "migration_complete" Figure 27: QUICMigrationStateUpdated definition 6. Security Events 6.1. key_updated The key_updated event has Base importance level; see Section 9.2 of [QLOG-MAIN]. Marx, et al. Expires 9 January 2025 [Page 34] Internet-Draft QUIC event definitions for qlog July 2024 SecurityKeyUpdated = { key_type: $KeyType ? old: hexstring ? new: hexstring ; needed for 1RTT key updates ? key_phase: uint64 ? trigger: ; (e.g., initial, handshake and 0-RTT keys ; are generated by TLS) "tls" / "remote_update" / "local_update" * $$quic-keyupdated-extension } Figure 28: SecurityKeyUpdated definition Note that the key_phase is the full value of the key phase (as indicated by @M and @N in Figure 9 of [QUIC-TLS]). The key phase bit used on the packet header is the least significant bit of the key phase. 6.2. key_discarded The key_discarded event has Base importance level; see Section 9.2 of [QLOG-MAIN]. SecurityKeyDiscarded = { key_type: $KeyType ? key: hexstring ; needed for 1RTT key updates ? key_phase: uint64 ? trigger: ; (e.g., initial, handshake and 0-RTT keys ; are generated by TLS) "tls" / "remote_update" / "local_update" * $$quic-keydiscarded-extension } Figure 29: SecurityKeyDiscarded definition Marx, et al. Expires 9 January 2025 [Page 35] Internet-Draft QUIC event definitions for qlog July 2024 7. Recovery events Most of the events in this category are kept generic to support different recovery approaches and various congestion control algorithms. Tool creators SHOULD make an effort to support and visualize even unknown data in these events (e.g., plot unknown congestion states by name on a timeline visualization). 7.1. parameters_set The parameters_set event groups initial parameters from both loss detection and congestion control into a single event. It has Base importance level; see Section 9.2 of [QLOG-MAIN]. All these settings are typically set once and never change. Implementation that do, for some reason, change these parameters during execution, MAY emit the parameters_set event more than once. Marx, et al. Expires 9 January 2025 [Page 36] Internet-Draft QUIC event definitions for qlog July 2024 RecoveryParametersSet = { ; Loss detection, see RFC 9002 Appendix A.2 ; in amount of packets ? reordering_threshold: uint16 ; as RTT multiplier ? time_threshold: float32 ; in ms timer_granularity: uint16 ; in ms ? initial_rtt:float32 ; congestion control, see RFC 9002 Appendix B.2 ; in bytes. Note that this could be updated after pmtud ? max_datagram_size: uint32 ; in bytes ? initial_congestion_window: uint64 ; Note that this could change when max_datagram_size changes ; in bytes ? minimum_congestion_window: uint64 ? loss_reduction_factor: float32 ; as PTO multiplier ? persistent_congestion_threshold: uint16 * $$recovery-parametersset-extension } Figure 30: RecoveryParametersSet definition Additionally, this event can contain any number of unspecified fields to support different recovery approaches. 7.2. metrics_updated The metrics_updated event is emitted when one or more of the observable recovery metrics changes value. It has Core importance level; see Section 9.2 of [QLOG-MAIN]. Marx, et al. Expires 9 January 2025 [Page 37] Internet-Draft QUIC event definitions for qlog July 2024 This event SHOULD group all possible metric updates that happen at or around the same time in a single event (e.g., if min_rtt and smoothed_rtt change at the same time, they should be bundled in a single metrics_updated entry, rather than split out into two). Consequently, a metrics_updated event is only guaranteed to contain at least one of the listed metrics. RecoveryMetricsUpdated = { ; Loss detection, see RFC 9002 Appendix A.3 ; all following rtt fields are expressed in ms ? min_rtt: float32 ? smoothed_rtt: float32 ? latest_rtt: float32 ? rtt_variance: float32 ? pto_count: uint16 ; Congestion control, see RFC 9002 Appendix B.2. ; in bytes ? congestion_window: uint64 ? bytes_in_flight: uint64 ; in bytes ? ssthresh: uint64 ; qlog defined ; sum of all packet number spaces ? packets_in_flight: uint64 ; in bits per second ? pacing_rate: uint64 * $$recovery-metricsupdated-extension } Figure 31: RecoveryMetricsUpdated definition In order to make logging easier, implementations MAY log values even if they are the same as previously reported values (e.g., two subsequent RecoveryMetricsUpdated entries can both report the exact same value for min_rtt). However, applications SHOULD try to log only actual updates to values. Additionally, the metrics_updated event can contain any number of unspecified fields to support different recovery approaches. Marx, et al. Expires 9 January 2025 [Page 38] Internet-Draft QUIC event definitions for qlog July 2024 7.3. congestion_state_updated The congestion_state_updated event indicates when the congestion controller enters a significant new state and changes its behaviour. It has Base importance level; see Section 9.2 of [QLOG-MAIN]. The values of the event's fields are intentionally unspecified here in order to support different Congestion Control algorithms, as these typically have different states and even different implementations of these states across stacks. For example, for the algorithm defined in the Recovery draft ("enhanced" New Reno), the following states are used: Slow Start, Congestion Avoidance, Application Limited and Recovery. Similarly, states can be triggered by a variety of events, including detection of Persistent Congestion or receipt of ECN markings. RecoveryCongestionStateUpdated = { ? old: text new: text ? trigger: text * $$recovery-congestionstateupdated-extension } Figure 32: RecoveryCongestionStateUpdated definition The trigger field SHOULD be logged if there are multiple ways in which a state change can occur but MAY be omitted if a given state can only be due to a single event occurring (for example Slow Start is often exited only when ssthresh is exceeded). 7.4. loss_timer_updated The loss_timer_updated event is emitted when a recovery loss timer changes state. It has Extra importance level; see Section 9.2 of [QLOG-MAIN]. The three main event types are: * set: the timer is set with a delta timeout for when it will trigger next * expired: when the timer effectively expires after the delta timeout * cancelled: when a timer is cancelled (e.g., all outstanding packets are acknowledged, start idle period) Marx, et al. Expires 9 January 2025 [Page 39] Internet-Draft QUIC event definitions for qlog July 2024 In order to indicate an active timer's timeout update, a new set event is used. RecoveryLossTimerUpdated = { ; called "mode" in RFC 9002 A.9. ? timer_type: "ack" / "pto" ? packet_number_space: $PacketNumberSpace event_type: "set" / "expired" / "cancelled" ; if event_type === "set": delta time is in ms from ; this event's timestamp until when the timer will trigger ? delta: float32 * $$recovery-losstimerupdated-extension } Figure 33: RecoveryLossTimerUpdated definition 7.5. packet_lost The packet_lost event is emitted when a packet is deemed lost by loss detection. It has Core importance level; see Section 9.2 of [QLOG-MAIN]. It is RECOMMENDED to populate the optional trigger field in order to help disambiguate among the various possible causes of a loss declaration. Marx, et al. Expires 9 January 2025 [Page 40] Internet-Draft QUIC event definitions for qlog July 2024 RecoveryPacketLost = { ; should include at least the packet_type and packet_number ? header: PacketHeader ; not all implementations will keep track of full ; packets, so these are optional ? frames: [* $QuicFrame] ? is_mtu_probe_packet: bool .default false ? trigger: "reordering_threshold" / "time_threshold" / ; RFC 9002 Section 6.2.4 paragraph 6, MAY "pto_expired" * $$recovery-packetlost-extension } Figure 34: RecoveryPacketLost definition 7.6. marked_for_retransmit The marked_for_retransmit event indicates which data was marked for retransmission upon detection of packet loss (see packet_lost). It has Extra importance level; see Section 9.2 of [QLOG-MAIN]. Similar to the reasoning for the frames_processed event, in order to keep the amount of different events low, this signal is grouped into in a single event based on existing QUIC frame definitions for all types of retransmittable data. Implementations retransmitting full packets or frames directly can just log the constituent frames of the lost packet here (or do away with this event and use the contents of the packet_lost event instead). Conversely, implementations that have more complex logic (e.g., marking ranges in a stream's data buffer as in-flight), or that do not track sent frames in full (e.g., only stream offset + length), can translate their internal behaviour into the appropriate frame instance here even if that frame was never or will never be put on the wire. Much of this data can be inferred if implementations log packet_sent events (e.g., looking at overlapping stream data offsets and length, one can determine when data was retransmitted). Marx, et al. Expires 9 January 2025 [Page 41] Internet-Draft QUIC event definitions for qlog July 2024 RecoveryMarkedForRetransmit = { frames: [+ $QuicFrame] * $$recovery-markedforretransmit-extension } Figure 35: RecoveryMarkedForRetransmit definition 7.7. ecn_state_updated The ecn_state_updated event indicates a progression in the ECN state machine as described in section A.4 of [QUIC-TRANSPORT]. It has Extra importance level; see Section 9.2 of [QLOG-MAIN]. ECNStateUpdated = { ? old: ECNState new: ECNState * $$recovery-ecnstateupdated-extension } ECNState = ; ECN testing in progress "testing" / ; ECN state unknown, waiting for acknowledgements ; for testing packets "unknown" / ; ECN testing failed "failed" / ; testing was successful, the endpoint now ; sends packets with ECT(0) marking "capable" Figure 36: ECNStateUpdated definition 8. QUIC data field definitions 8.1. QuicVersion QuicVersion = hexstring Figure 37: QuicVersion definition 8.2. ConnectionID ConnectionID = hexstring Figure 38: ConnectionID definition Marx, et al. Expires 9 January 2025 [Page 42] Internet-Draft QUIC event definitions for qlog July 2024 8.3. Owner Owner = "local" / "remote" Figure 39: Owner definition 8.4. IPAddress and IPVersion ; an IPAddress can either be a "human readable" form ; (e.g., "127.0.0.1" for v4 or ; "2001:0db8:85a3:0000:0000:8a2e:0370:7334" for v6) or ; use a raw byte-form (as the string forms can be ambiguous). ; Additionally, a hash-based or redacted representation ; can be used if needed for privacy or security reasons. IPAddress = text / hexstring Figure 40: IPAddress definition IPVersion = "v4" / "v6" Figure 41: IPVersion definition 8.5. PathEndpointInfo PathEndpointInfo indicates a single half/direction of a path. A full path is comprised of two halves. Firstly: the server sends to the remote client IP + port using a specific destination Connection ID. Secondly: the client sends to the remote server IP + port using a different destination Connection ID. As such, structures logging path information SHOULD include two different PathEndpointInfo instances, one for each half of the path. Marx, et al. Expires 9 January 2025 [Page 43] Internet-Draft QUIC event definitions for qlog July 2024 PathEndpointInfo = { ? ip_v4: IPAddress ? ip_v6: IPAddress ? port_v4: uint16 ? port_v6: uint16 ; Even though usually only a single ConnectionID ; is associated with a given path at a time, ; there are situations where there can be an overlap ; or a need to keep track of previous ConnectionIDs ? connection_ids: [+ ConnectionID] * $$quic-pathendpointinfo-extension } Figure 42: PathEndpointInfo definition 8.6. PacketType $PacketType /= "initial" / "handshake" / "0RTT" / "1RTT" / "retry" / "version_negotiation" / "stateless_reset" / "unknown" Figure 43: PacketType definition 8.7. PacketNumberSpace $PacketNumberSpace /= "initial" / "handshake" / "application_data" Figure 44: PacketNumberSpace definition 8.8. PacketHeader Marx, et al. Expires 9 January 2025 [Page 44] Internet-Draft QUIC event definitions for qlog July 2024 PacketHeader = { ? quic_bit: bool .default true packet_type: $PacketType ; only if packet_type === "initial" || "handshake" || "0RTT" || ; "1RTT" ? packet_number: uint64 ; the bit flags of the packet headers (spin bit, key update bit, ; etc. up to and including the packet number length bits ; if present ? flags: uint8 ; only if packet_type === "initial" || "retry" ? token: Token ; only if packet_type === "initial" || "handshake" || "0RTT" ; Signifies length of the packet_number plus the payload ? length: uint16 ; only if present in the header ; if correctly using transport:connection_id_updated events, ; dcid can be skipped for 1RTT packets ? version: QuicVersion ? scil: uint8 ? dcil: uint8 ? scid: ConnectionID ? dcid: ConnectionID * $$quic-packetheader-extension } Figure 45: PacketHeader definition 8.9. Token Marx, et al. Expires 9 January 2025 [Page 45] Internet-Draft QUIC event definitions for qlog July 2024 Token = { ? type: $TokenType ; decoded fields included in the token ; (typically: peer's IP address, creation time) ? details: { * text => any } ? raw: RawInfo * $$quic-token-extension } $TokenType /= "retry" / "resumption" Figure 46: Token definition The token carried in an Initial packet can either be a retry token from a Retry packet, or one originally provided by the server in a NEW_TOKEN frame used when resuming a connection (e.g., for address validation purposes). Retry and resumption tokens typically contain encoded metadata to check the token's validity when it is used, but this metadata and its format is implementation specific. For that, Token includes a general-purpose details field. 8.10. Stateless Reset Token StatelessResetToken = hexstring .size 16 Figure 47: Stateless Reset Token definition The stateless reset token is carried in stateless reset packets, in transport parameters and in NEW_CONNECTION_ID frames. 8.11. KeyType $KeyType /= "server_initial_secret" / "client_initial_secret" / "server_handshake_secret" / "client_handshake_secret" / "server_0rtt_secret" / "client_0rtt_secret" / "server_1rtt_secret" / "client_1rtt_secret" Figure 48: KeyType definition Marx, et al. Expires 9 January 2025 [Page 46] Internet-Draft QUIC event definitions for qlog July 2024 8.12. ECN ECN = "Not-ECT" / "ECT(1)" / "ECT(0)" / "CE" Figure 49: ECN definition The ECN bits carried in the IP header. 8.13. QUIC Frames The generic $QuicFrame is defined here as a CDDL "type socket" extension point. It can be extended to support additional QUIC frame types. ; The QuicFrame is any key-value map (e.g., JSON object) $QuicFrame /= { * text => any } Figure 50: QuicFrame type socket definition The QUIC frame types defined in this document are as follows: QuicBaseFrames = PaddingFrame / PingFrame / AckFrame / ResetStreamFrame / StopSendingFrame / CryptoFrame / NewTokenFrame / StreamFrame / MaxDataFrame / MaxStreamDataFrame / MaxStreamsFrame / DataBlockedFrame / StreamDataBlockedFrame / StreamsBlockedFrame / NewConnectionIDFrame / RetireConnectionIDFrame / PathChallengeFrame / PathResponseFrame / ConnectionCloseFrame / HandshakeDoneFrame / UnknownFrame / DatagramFrame $QuicFrame /= QuicBaseFrames Marx, et al. Expires 9 January 2025 [Page 47] Internet-Draft QUIC event definitions for qlog July 2024 Figure 51: QuicBaseFrames definition 8.13.1. PaddingFrame In QUIC, PADDING frames are simply identified as a single byte of value 0. As such, each padding byte could be theoretically interpreted and logged as an individual PaddingFrame. However, as this leads to heavy logging overhead, implementations SHOULD instead emit just a single PaddingFrame and set the payload_length property to the amount of PADDING bytes/frames included in the packet. PaddingFrame = { frame_type: "padding" ; total frame length, including frame header ? length: uint32 payload_length: uint32 } Figure 52: PaddingFrame definition 8.13.2. PingFrame PingFrame = { frame_type: "ping" ; total frame length, including frame header ? length: uint32 ? payload_length: uint32 } Figure 53: PingFrame definition 8.13.3. AckFrame Marx, et al. Expires 9 January 2025 [Page 48] Internet-Draft QUIC event definitions for qlog July 2024 ; either a single number (e.g., [1]) or two numbers (e.g., [1,2]). ; For two numbers: ; the first number is "from": lowest packet number in interval ; the second number is "to": up to and including the highest ; packet number in the interval AckRange = [1*2 uint64] AckFrame = { frame_type: "ack" ; in ms ? ack_delay: float32 ; e.g., looks like [[1,2],[4,5], [7], [10,22]] serialized ? acked_ranges: [+ AckRange] ; ECN (explicit congestion notification) related fields ; (not always present) ? ect1: uint64 ? ect0: uint64 ? ce: uint64 ; total frame length, including frame header ? length: uint32 ? payload_length: uint32 } Figure 54: AckFrame definition Note that the packet ranges in AckFrame.acked_ranges do not necessarily have to be ordered (e.g., [[5,9],[1,4]] is a valid value). Note that the two numbers in the packet range can be the same (e.g., [120,120] means that packet with number 120 was ACKed). However, in that case, implementers SHOULD log [120] instead and tools MUST be able to deal with both notations. 8.13.4. ResetStreamFrame Marx, et al. Expires 9 January 2025 [Page 49] Internet-Draft QUIC event definitions for qlog July 2024 ResetStreamFrame = { frame_type: "reset_stream" stream_id: uint64 error_code: $ApplicationError / uint64 ; in bytes final_size: uint64 ; total frame length, including frame header ? length: uint32 ? payload_length: uint32 } Figure 55: ResetStreamFrame definition 8.13.5. StopSendingFrame StopSendingFrame = { frame_type: "stop_sending" stream_id: uint64 error_code: $ApplicationError / uint64 ; total frame length, including frame header ? length: uint32 ? payload_length: uint32 } Figure 56: StopSendingFrame definition 8.13.6. CryptoFrame CryptoFrame = { frame_type: "crypto" offset: uint64 length: uint64 ? payload_length: uint32 ? raw: RawInfo } Figure 57: CryptoFrame definition 8.13.7. NewTokenFrame Marx, et al. Expires 9 January 2025 [Page 50] Internet-Draft QUIC event definitions for qlog July 2024 NewTokenFrame = { frame_type: "new_token" token: Token } Figure 58: NewTokenFrame definition 8.13.8. StreamFrame StreamFrame = { frame_type: "stream" stream_id: uint64 ; These two MUST always be set ; If not present in the Frame type, log their default values offset: uint64 length: uint64 ; this MAY be set any time, ; but MUST only be set if the value is true ; if absent, the value MUST be assumed to be false ? fin: bool .default false ? raw: RawInfo } Figure 59: StreamFrame definition 8.13.9. MaxDataFrame MaxDataFrame = { frame_type: "max_data" maximum: uint64 } Figure 60: MaxDataFrame definition 8.13.10. MaxStreamDataFrame MaxStreamDataFrame = { frame_type: "max_stream_data" stream_id: uint64 maximum: uint64 } Figure 61: MaxStreamDataFrame definition 8.13.11. MaxStreamsFrame Marx, et al. Expires 9 January 2025 [Page 51] Internet-Draft QUIC event definitions for qlog July 2024 MaxStreamsFrame = { frame_type: "max_streams" stream_type: StreamType maximum: uint64 } Figure 62: MaxStreamsFrame definition 8.13.12. DataBlockedFrame DataBlockedFrame = { frame_type: "data_blocked" limit: uint64 } Figure 63: DataBlockedFrame definition 8.13.13. StreamDataBlockedFrame StreamDataBlockedFrame = { frame_type: "stream_data_blocked" stream_id: uint64 limit: uint64 } Figure 64: StreamDataBlockedFrame definition 8.13.14. StreamsBlockedFrame StreamsBlockedFrame = { frame_type: "streams_blocked" stream_type: StreamType limit: uint64 } Figure 65: StreamsBlockedFrame definition 8.13.15. NewConnectionIDFrame Marx, et al. Expires 9 January 2025 [Page 52] Internet-Draft QUIC event definitions for qlog July 2024 NewConnectionIDFrame = { frame_type: "new_connection_id" sequence_number: uint32 retire_prior_to: uint32 ; mainly used if e.g., for privacy reasons the full ; connection_id cannot be logged ? connection_id_length: uint8 connection_id: ConnectionID ? stateless_reset_token: StatelessResetToken } Figure 66: NewConnectionIDFrame definition 8.13.16. RetireConnectionIDFrame RetireConnectionIDFrame = { frame_type: "retire_connection_id" sequence_number: uint32 } Figure 67: RetireConnectionIDFrame definition 8.13.17. PathChallengeFrame PathChallengeFrame = { frame_type: "path_challenge" ; always 64-bit ? data: hexstring } Figure 68: PathChallengeFrame definition 8.13.18. PathResponseFrame PathResponseFrame = { frame_type: "path_response" ; always 64-bit ? data: hexstring } Figure 69: PathResponseFrame definition Marx, et al. Expires 9 January 2025 [Page 53] Internet-Draft QUIC event definitions for qlog July 2024 8.13.19. ConnectionCloseFrame An endpoint that receives unknown error codes can record it in the error_code field using the numerical value without variable-length integer encoding. When the connection is closed due a connection-level error, the trigger_frame_type field can be used to log the frame that triggered the error. For known frame types, the appropriate string value is used. For unknown frame types, the numerical value without variable- length integer encoding is used. The CONNECTION_CLOSE reason phrase is a byte sequences. It is likely that this sequence is presentable as UTF-8, in which case it can be logged in the reason field. The reason_bytes field supports logging the raw bytes, which can be useful when the value is not UTF-8 or when an endpoint does not want to decode it. Implementations SHOULD log at least one format, but MAY log both or none. ErrorSpace = "transport" / "application" ConnectionCloseFrame = { frame_type: "connection_close" ? error_space: ErrorSpace ? error_code: $TransportError / CryptoError / $ApplicationError / uint64 ? reason: text ? reason_bytes: hexstring ; when error_space === "transport" ? trigger_frame_type: uint64 / text } Figure 70: ConnectionCloseFrame definition 8.13.20. HandshakeDoneFrame HandshakeDoneFrame = { frame_type: "handshake_done"; } Figure 71: HandshakeDoneFrame definition Marx, et al. Expires 9 January 2025 [Page 54] Internet-Draft QUIC event definitions for qlog July 2024 8.13.21. UnknownFrame The frame_type_bytes field is the numerical value without variable- length integer encoding. UnknownFrame = { frame_type: "unknown" frame_type_bytes: uint64 ? raw: RawInfo } Figure 72: UnknownFrame definition 8.13.22. DatagramFrame The QUIC DATAGRAM frame is defined in Section 4 of [RFC9221]. DatagramFrame = { frame_type: "datagram" ? length: uint64 ? raw: RawInfo } Figure 73: DatagramFrame definition 8.13.23. TransportError The generic $TransportError is defined here as a CDDL "type socket" extension point. It can be extended to support additional Transport errors. Marx, et al. Expires 9 January 2025 [Page 55] Internet-Draft QUIC event definitions for qlog July 2024 $TransportError /= "no_error" / "internal_error" / "connection_refused" / "flow_control_error" / "stream_limit_error" / "stream_state_error" / "final_size_error" / "frame_encoding_error" / "transport_parameter_error" / "connection_id_limit_error" / "protocol_violation" / "invalid_token" / "application_error" / "crypto_buffer_exceeded" / "key_update_error" / "aead_limit_reached" / "no_viable_path" ; there is no value to reflect CRYPTO_ERROR ; use the CryptoError type instead Figure 74: TransportError definition 8.13.24. ApplicationError By definition, an application error is defined by the application- level protocol running on top of QUIC (e.g., HTTP/3). As such, it cannot be defined here directly. It is instead defined as an empty CDDL "type socket" extension point. Application-level qlog definitions that wish to define new ApplicationError strings MUST do so by extending the $ApplicationError socket as such: $ApplicationError /= "new_error_name" / "another_new_error_name" 8.13.25. CryptoError These errors are defined in the TLS document as "A TLS alert is turned into a QUIC connection error by converting the one-byte alert description into a QUIC error code. The alert description is added to 0x100 to produce a QUIC error code from the range reserved for CRYPTO_ERROR." Marx, et al. Expires 9 January 2025 [Page 56] Internet-Draft QUIC event definitions for qlog July 2024 This approach maps badly to a pre-defined enum. As such, the crypto_error string is defined as having a dynamic component here, which should include the hex-encoded and zero-padded value of the TLS alert description. ; all strings from "crypto_error_0x100" to "crypto_error_0x1ff" CryptoError = text .regexp "crypto_error_0x1[0-9a-f][0-9a-f]" Figure 75: CryptoError definition 9. Security and Privacy Considerations The security and privacy considerations discussed in [QLOG-MAIN] apply to this document as well. 10. IANA Considerations This document registers several new entries in the "qlog event category URIs" registry. Event Category URI: urn:ietf:params:qlog:events:quic#connectivity Description: Event definitions related to QUIC connectivity. Reference: Section 4 Event Category URI: urn:ietf:params:qlog:events:quic#security Description: Event definitions related to QUIC security. Reference: Section 6 Event Category URI: urn:ietf:params:qlog:events:quic#quic Description: Event definitions related to the QUIC wire image and other concerns. Reference: Section 5 Event Category URI: urn:ietf:params:qlog:events:quic#recovery Description: Event definitions related to QUIC recovery. Reference: Section 4 11. References 11.1. Normative References Marx, et al. Expires 9 January 2025 [Page 57] Internet-Draft QUIC event definitions for qlog July 2024 [CDDL] Birkholz, H., Vigano, C., and C. Bormann, "Concise Data Definition Language (CDDL): A Notational Convention to Express Concise Binary Object Representation (CBOR) and JSON Data Structures", RFC 8610, DOI 10.17487/RFC8610, June 2019, . [GREASEBIT] Thomson, M., "Greasing the QUIC Bit", RFC 9287, DOI 10.17487/RFC9287, August 2022, . [QLOG-MAIN] Marx, R., Niccolini, L., Seemann, M., and L. Pardue, "Main logging schema for qlog", Work in Progress, Internet- Draft, draft-ietf-quic-qlog-main-schema-08, 4 March 2024, . [QUIC-DATAGRAM] Pauly, T., Kinnear, E., and D. Schinazi, "An Unreliable Datagram Extension to QUIC", RFC 9221, DOI 10.17487/RFC9221, March 2022, . [QUIC-RECOVERY] Iyengar, J., Ed. and I. Swett, Ed., "QUIC Loss Detection and Congestion Control", RFC 9002, DOI 10.17487/RFC9002, May 2021, . [QUIC-TLS] Thomson, M., Ed. and S. Turner, Ed., "Using TLS to Secure QUIC", RFC 9001, DOI 10.17487/RFC9001, May 2021, . [QUIC-TRANSPORT] Iyengar, J., Ed. and M. Thomson, Ed., "QUIC: A UDP-Based Multiplexed and Secure Transport", RFC 9000, DOI 10.17487/RFC9000, May 2021, . [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, DOI 10.17487/RFC2119, March 1997, . [RFC8174] Leiba, B., "Ambiguity of Uppercase vs Lowercase in RFC 2119 Key Words", BCP 14, RFC 8174, DOI 10.17487/RFC8174, May 2017, . Marx, et al. Expires 9 January 2025 [Page 58] Internet-Draft QUIC event definitions for qlog July 2024 [RFC9221] Pauly, T., Kinnear, E., and D. Schinazi, "An Unreliable Datagram Extension to QUIC", RFC 9221, DOI 10.17487/RFC9221, March 2022, . 11.2. Informative References [RFC7301] Friedl, S., Popov, A., Langley, A., and E. Stephan, "Transport Layer Security (TLS) Application-Layer Protocol Negotiation Extension", RFC 7301, DOI 10.17487/RFC7301, July 2014, . Acknowledgements Much of the initial work by Robin Marx was done at the Hasselt and KU Leuven Universities. Thanks to Jana Iyengar, Brian Trammell, Dmitri Tikhonov, Stephen Petrides, Jari Arkko, Marcus Ihlar, Victor Vasiliev, Mirja Kuehlewind, Jeremy Laine, Kazu Yamamoto, Christian Huitema, Hugo Landau and Jonathan Lennox for their feedback and suggestions. Change Log This section is to be removed before publishing as an RFC. Since draft-ietf-qlog-quic-events-06: * Added PathAssigned and MigrationStateUpdated events (#336) * Added extension points to parameters_set and parameters_restored (#400) * Removed error_code_value from connection_closed (#386, #392) * Renamed generation to key_phase for key_updated and key_discarded (#390) * Removed retry_token from packet_sent and packet_received (#389) * Updated ALPN handling (#385) * Added key_unavailable trigger to packet_dropped (#381) * Updated several uint32 to uint64 * ProtocolEventBody is now called ProtocolEventData (#352) Marx, et al. Expires 9 January 2025 [Page 59] Internet-Draft QUIC event definitions for qlog July 2024 * Editorial changes (#402, #404, #394, #393) Since draft-ietf-qlog-quic-events-05: * SecurityKeyUpdated: the new key is no longer mandatory to log (#294) * Added ECN related events and metadata (#263) Since draft-ietf-qlog-quic-events-04: * Updated guidance on logging events across connections (#279) * Renamed 'transport' category to 'quic' (#302) * Added support for multiple packet numbers in 'quic:frames_processed' (#307) * Added definitions for RFC9287 (QUIC GREASE Bit extension) (#311) * Added definitions for RFC9221 (QUIC Datagram Frame extension) (#310) * (Temporarily) removed definitions for connection migration events (#317) * Editorial and formatting changes (#298, #299, #304, #306, #327) Since draft-ietf-qlog-quic-events-03: * Ensured consistent use of RawInfo to indicate raw wire bytes (#243) * Renamed UnknownFrame:raw_frame_type to :frame_type_value (#54) * Renamed ConnectionCloseFrame:raw_error_code to :error_code_value (#54) * Changed triggers for packet_dropped (#278) * Added entries to TransportError enum (#285) * Changed minimum_congestion_window to uint64 (#288) Since draft-ietf-qlog-quic-events-02: * Renamed key_retired to key_discarded (#185) Marx, et al. Expires 9 January 2025 [Page 60] Internet-Draft QUIC event definitions for qlog July 2024 * Added fields and events for DPLPMTUD (#135) * Made packet_number optional in PacketHeader (#244) * Removed connection_retried event placeholder (#255) * Changed QuicFrame to a CDDL plug type (#257) * Moved data definitions out of the appendix into separate sections * Added overview Table of Contents Since draft-ietf-qlog-quic-events-01: * Added Stateless Reset Token type (#122) Since draft-ietf-qlog-quic-events-00: * Change the data definition language from TypeScript to CDDL (#143) Since draft-marx-qlog-event-definitions-quic-h3-02: * These changes were done in preparation of the adoption of the drafts by the QUIC working group (#137) * Split QUIC and HTTP/3 events into two separate documents * Moved RawInfo, Importance, Generic events and Simulation events to the main schema document. * Changed to/from value options of the data_moved event Since draft-marx-qlog-event-definitions-quic-h3-01: Major changes: * Moved data_moved from http to transport. Also made the "from" and "to" fields flexible strings instead of an enum (#111,#65) * Moved packet_type fields to PacketHeader. Moved packet_size field out of PacketHeader to RawInfo:length (#40) * Made events that need to log packet_type and packet_number use a header field instead of logging these fields individually * Added support for logging retry, stateless reset and initial tokens (#94,#86,#117) Marx, et al. Expires 9 January 2025 [Page 61] Internet-Draft QUIC event definitions for qlog July 2024 * Moved separate general event categories into a single category "generic" (#47) * Added "transport:connection_closed" event (#43,#85,#78,#49) * Added version_information and alpn_information events (#85,#75,#28) * Added parameters_restored events to help clarify 0-RTT behaviour (#88) Smaller changes: * Merged loss_timer events into one loss_timer_updated event * Field data types are now strongly defined (#10,#39,#36,#115) * Renamed qpack instruction_received and instruction_sent to instruction_created and instruction_parsed (#114) * Updated qpack:dynamic_table_updated.update_type. It now has the value "inserted" instead of "added" (#113) * Updated qpack:dynamic_table_updated. It now has an "owner" field to differentiate encoder vs decoder state (#112) * Removed push_allowed from http:parameters_set (#110) * Removed explicit trigger field indications from events, since this was moved to be a generic property of the "data" field (#80) * Updated transport:connection_id_updated to be more in line with other similar events. Also dropped importance from Core to Base (#45) * Added length property to PaddingFrame (#34) * Added packet_number field to transport:frames_processed (#74) * Added a way to generically log packet header flags (first 8 bits) to PacketHeader * Added additional guidance on which events to log in which situations (#53) * Added "simulation:scenario" event to help indicate simulation details Marx, et al. Expires 9 January 2025 [Page 62] Internet-Draft QUIC event definitions for qlog July 2024 * Added "packets_acked" event (#107) * Added "datagram_ids" to the datagram_X and packet_X events to allow tracking of coalesced QUIC packets (#91) * Extended connection_state_updated with more fine-grained states (#49) Since draft-marx-qlog-event-definitions-quic-h3-00: * Event and category names are now all lowercase * Added many new events and their definitions * "type" fields have been made more specific (especially important for PacketType fields, which are now called packet_type instead of type) * Events are given an importance indicator (issue #22) * Event names are more consistent and use past tense (issue #21) * Triggers have been redefined as properties of the "data" field and updated for most events (issue #23) Authors' Addresses Robin Marx (editor) Akamai Email: rmarx@akamai.com Luca Niccolini (editor) Meta Email: lniccolini@meta.com Marten Seemann (editor) Email: martenseemann@gmail.com Lucas Pardue (editor) Cloudflare Email: lucas@lucaspardue.com Marx, et al. 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