httpbis Working Group G. Xie Internet-Draft F. Frindell Intended status: Standards Track Facebook Inc. Expires: September 25, 2019 March 24, 2019 An HTTP/2 extension for bidirectional messaging communication draft-xie-bidirectional-messaging-00 Abstract This draft proposes a http2 protocol extension, which enables bidirectional messaging communication between client and server. 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." This Internet-Draft will expire on September 25, 2019. Copyright Notice Copyright (c) 2019 IETF Trust and the persons identified as the document authors. All rights reserved. This document is subject to BCP 78 and the IETF Trust's Legal Provisions Relating to IETF Documents (https://trustee.ietf.org/license-info) in effect on the date of publication of this document. Please review these documents carefully, as they describe your rights and restrictions with respect to this document. Code Components extracted from this document must include Simplified BSD License text as described in Section 4.e of the Trust Legal Provisions and are provided without warranty as described in the Simplified BSD License. Xie & Frindell Expires September 25, 2019 [Page 1] Internet-Draft bidirectional messaging March 2019 1. HTTP/2 is the de facto application protocol in Internet. The optimizations developed in HTTP/2, like stream multiplexing, header compression, and binary message framing are very generic. They can be useful in non web browsing applications, for example, Publish/ Subscribe, RPC. However, the request/response from client to server communication pattern limits HTTP/2 from wider use in these applications. This draft proposes a HTTP/2 protocol extension, which enables bidirectional messaging between client and server. The only mechanism HTTP/2 provides for server to client communication is PUSH PROMISE and the bi-directionality of HEADERS. Further, clients are also able group streams together for routing purposes, such that each individual stream does not need to carry additional routing information. 2. The keywords , , , , , , , , , and , when they appear in this document, are to be interpreted as described in [RFC2119]. All the terms defined in the Conventions and Terminology section in [RFC7540] apply to this document. Xie & Frindell Expires September 25, 2019 [Page 2] Internet-Draft bidirectional messaging March 2019 3. 3.1. A routing stream (RStream) is a long lived HTTP/2 stream in nature. RStreams are initiated by clients, and can be routed independently by any intermediaries. Though an RStream is effectively a regular HTTP/2 stream, RStreams are recommended for exchanging metadata, but not user data. A new HTTP/2 stream called ExStream is introduced for exchanging user data. ExStreams are recommended for short lived transactions, so intermediaries and servers can gracefully shutdown ExStreams within a short time. The typical use case can be a subscription or publish request/response in Publish/Subscribe use case, or an RPC call between two endpoints. An ExStream is opened by an EX_HEADERS frame, and continued by CONTINUATION and DATA frames. An ExStream be associated with an open RStream, and be associated with any other ExStream. ExStreams are routed according to their RStreams by intermediaries and servers. Effectively, all ExStreams with the same RStream form a logical stream group, and are routed to the same endpoint. 3.2. With RStreams and ExStreams, HTTP/2 can be used for bidirectional messaging communication. As shown in the follow diagrams, after an RStream is open from client to server, either endpoint can initiate an ExStreams to its peer. +--------+ RStream (5) +---------+ RStream (1) +--------+ | client |>--------------->| proxy |>---------------->| server | +--------+ +---------+ +--------+ v ^ v ^ | ExStream(7, RS=5) | | ExStream(3, RS=1) | +------------------------+ +------------------------+ Figure 1 Xie & Frindell Expires September 25, 2019 [Page 3] Internet-Draft bidirectional messaging March 2019 +--------+ RStream (5) +---------+ RStream (1) +--------+ | client |>--------------->| proxy |>---------------->| server | +--------+ +---------+ +--------+ ^ v ^ v | ExStream(4, RS=5) | | ExStream(2, RS=1) | +------------------------+ +------------------------+ Figure 2 Beyond that, clients can multiplex RStreams, ExStreams and regular HTTP/2 streams into one HTTP/2 connection. This enables clients to access different services without initiating new TCP connections. This avoids the latency cost of setting up new connections. This is more desirable for mobile devices because they usually have longer RTT and battery constraints. Multiplexing these services also allows them to share a single TCP connection congestion control context. As shown in the following diagram, the client can exchange data with PubSub, RPC and CDN three different services with one TCP connection. +--------+ RStream (5) +---------+ RStream (1) +----------+ | client |>--------------->| proxy |>---------------->| PUBSUB | +--------+ +---------+ +----------+ v v ^ ^ v v | | RStream (7) / | | \ RStream (5) +----------+ | +-------------------+ | | +---------------->| RPC | | | | +----------+ | | | | Stream (9) | | Stream (7) +----------+ +---------------------------+ +--------------------->| CDN | +----------+ Figure 3 3.3. RStreams are regular HTTP/2 streams that follow the stream lifecycle in [RFC7540], section 5.1. ExStreams use the same lifecycle as regular HTTP/2 streams, but also depend on their RStreams. If a RStream is reset, endpoints reset the ExStreams associated with that RStream. If the RStream is closed, endpoints SHOULD allow existing ExStreams complete normally. The RStream SHOULD remain open while communication is ongoing. Endpoints SHOULD refresh any timeouts on the RStream while associated ExStreams are open. A sender Xie & Frindell Expires September 25, 2019 [Page 4] Internet-Draft bidirectional messaging March 2019 initiate new ExStreams if on an RStream that is in the open or half closed (remote) state. Endpoints process new ExStreams only when the RStream is open or half closed (local) state. If an endpoint receives an EX STREAM_ERROR. 3.4. The extension SHOULD be disabled by default. Endpoints can negotiate the use of the extension through the SETTINGS frame. If an implementation supports the extension, it is RECOMMENDED to include the ENABLE HEADERS setting in the initial SETTINGS frame. HTTP/2 compliant implementations will ignore the setting if it is unknown. An endpoint can send EX EX_HEADERS=1. Endpoints MUST NOT send out EX EX HEADERS will be ignored, making the header compression contexts inconsistent between sender and receiver. If an endpoint supports this extension, but receives EX EX HEADER ENABLED_ERROR. Intermediaries SHOULD send the ENABLE HEADERS setting to clients, only if intermediaries and their upstream servers can support this extension. If an intermediary receives an ExStream but discovers the destination endpoint does not support the extension, it MUST reset the stream with EX NOT ERROR. Xie & Frindell Expires September 25, 2019 [Page 5] Internet-Draft bidirectional messaging March 2019 3.5. The extension implementation should apply stream and connection level flow control, maximum concurrent streams limit, GOAWAY logic to both RStreams and ExStreams. 4. The EX HEADERS has one extra field, RStream ID. It is used to open an ExStream, and additionally carries a header block fragment. EX_HEADERS frames can be sent on a stream in the "idle", "open", or "half-closed (remote)" state. Like HEADERS, the CONTINUATION frame (type=0x9) is used to continue a sequence of header block fragments, if the headers do not fit into one EX_HEADERS frame. +---------------+ |Pad Length? (8)| +-+-------------+-----------------------------------------------+ |E| Stream Dependency? (31) | +-+-------------+-----------------------------------------------+ | Weight? (8) | +-+-------------+-----------------------------------------------+ |R| Routing Stream ID (31) | +-+-------------+-----------------------------------------------+ | Header Block Fragment (*) ... +---------------------------------------------------------------+ | Padding (*) ... +---------------------------------------------------------------+ Figure 4 The RStream specified in EX STREAM ERROR, if the specified RStream is missing; or is an ExStream rather than a stream; or is closed or half-closed (remote). Otherwise, the states maintained for header compression or flow control) may be out of sync. Xie & Frindell Expires September 25, 2019 [Page 6] Internet-Draft bidirectional messaging March 2019 5. This document establishes a registry for a new frame type, setting, and error code. 5.1. The entry in the following table are registered by this document. 5.2. The entry in the following table are registered by this document. 5.3. The entry in the following table are registered by this document. 6. References Authors' Addresses Guowu Xie Facebook Inc. 1 Hacker Way Menlo Park CA 94025 U.S.A. Email: woo@fb.com Alan Frindell Facebook Inc. Email: afrind@fb.com Xie & Frindell Expires September 25, 2019 [Page 7]