HTTP & WebSocket ASGI Message Format

Version: 2.3 (2021-02-02)

The HTTP+WebSocket ASGI sub-specification outlines how to transport HTTP/1.1, HTTP/2 and WebSocket connections within ASGI.

It is deliberately intended and designed to be a superset of the WSGI format and specifies how to translate between the two for the set of requests that are able to be handled by WSGI.

Spec Versions

This spec has had three versions:

  • 2.0: The first version of the spec, released with ASGI 2.0

  • 2.1: Added the headers key to the WebSocket Accept response

  • 2.2: Allow None in the second item of server scope value.

  • 2.3: Added the reason key to the WebSocket close event.

Spec versions let you understand what the server you are using understands. If a server tells you it only supports version 2.0 of this spec, then sending headers with a WebSocket Accept message is an error, for example.

They are separate from the HTTP version or the ASGI version.

HTTP

The HTTP format covers HTTP/1.0, HTTP/1.1 and HTTP/2, as the changes in HTTP/2 are largely on the transport level. A protocol server should give different scopes to different requests on the same HTTP/2 connection, and correctly multiplex the responses back to the same stream in which they came. The HTTP version is available as a string in the scope.

Multiple header fields with the same name are complex in HTTP. RFC 7230 states that for any header field that can appear multiple times, it is exactly equivalent to sending that header field only once with all the values joined by commas.

However, RFC 7230 and RFC 6265 make it clear that this rule does not apply to the various headers used by HTTP cookies (Cookie and Set-Cookie). The Cookie header must only be sent once by a user-agent, but the Set-Cookie header may appear repeatedly and cannot be joined by commas. The ASGI design decision is to transport both request and response headers as lists of 2-element [name, value] lists and preserve headers exactly as they were provided.

The HTTP protocol should be signified to ASGI applications with a type value of http.

HTTP Connection Scope

HTTP connections have a single-request connection scope - that is, your application will be called at the start of the request, and will last until the end of that specific request, even if the underlying socket is still open and serving multiple requests.

If you hold a response open for long-polling or similar, the connection scope will persist until the response closes from either the client or server side.

The connection scope information passed in scope contains:

  • type (Unicode string) – "http".

  • asgi["version"] (Unicode string) – Version of the ASGI spec.

  • asgi["spec_version"] (Unicode string) – Version of the ASGI HTTP spec this server understands; one of "2.0", "2.1", "2.2" or "2.3". Optional; if missing assume 2.0.

  • http_version (Unicode string) – One of "1.0", "1.1" or "2".

  • method (Unicode string) – The HTTP method name, uppercased.

  • scheme (Unicode string) – URL scheme portion (likely "http" or "https"). Optional (but must not be empty); default is "http".

  • path (Unicode string) – HTTP request target excluding any query string, with percent-encoded sequences and UTF-8 byte sequences decoded into characters.

  • raw_path (byte string) – The original HTTP path component unmodified from the bytes that were received by the web server. Some web server implementations may be unable to provide this. Optional; if missing defaults to None.

  • query_string (byte string) – URL portion after the ?, percent-encoded.

  • root_path (Unicode string) – The root path this application is mounted at; same as SCRIPT_NAME in WSGI. Optional; if missing defaults to "".

  • headers (Iterable[[byte string, byte string]]) – An iterable of [name, value] two-item iterables, where name is the header name, and value is the header value. Order of header values must be preserved from the original HTTP request; order of header names is not important. Duplicates are possible and must be preserved in the message as received. Header names should be lowercased, but it is not required; servers should preserve header case on a best-effort basis. Pseudo headers (present in HTTP/2 and HTTP/3) must be removed; if :authority is present its value must be added to the start of the iterable with host as the header name or replace any existing host header already present.

  • client (Iterable[Unicode string, int]) – A two-item iterable of [host, port], where host is the remote host’s IPv4 or IPv6 address, and port is the remote port as an integer. Optional; if missing defaults to None.

  • server (Iterable[Unicode string, Optional[int]]) – Either a two-item iterable of [host, port], where host is the listening address for this server, and port is the integer listening port, or [path, None] where path is that of the unix socket. Optional; if missing defaults to None.

  • state Optional(dict[Unicode string, Any]) – A copy of the namespace passed into the lifespan corresponding to this request. (See Lifespan Protocol). Optional; if missing the server does not support this feature.

Servers are responsible for handling inbound and outbound chunked transfer encodings. A request with a chunked encoded body should be automatically de-chunked by the server and presented to the application as plain body bytes; a response that is given to the server with no Content-Length may be chunked as the server sees fit.

Request - receive event

Sent to the application to indicate an incoming request. Most of the request information is in the connection scope; the body message serves as a way to stream large incoming HTTP bodies in chunks, and as a trigger to actually run request code (as you should not trigger on a connection opening alone).

Note that if the request is being sent using Transfer-Encoding: chunked, the server is responsible for handling this encoding. The http.request messages should contain just the decoded contents of each chunk.

Keys:

  • type (Unicode string) – "http.request".

  • body (byte string) – Body of the request. Optional; if missing defaults to b"". If more_body is set, treat as start of body and concatenate on further chunks.

  • more_body (bool) – Signifies if there is additional content to come (as part of a Request message). If True, the consuming application should wait until it gets a chunk with this set to False. If False, the request is complete and should be processed. Optional; if missing defaults to False.

Response Start - send event

Sent by the application to start sending a response to the client. Needs to be followed by at least one response content message.

Protocol servers need not flush the data generated by this event to the send buffer until the first Response Body event is processed. This may give them more leeway to replace the response with an error response in case internal errors occur while handling the request.

You may send a Transfer-Encoding header in this message, but the server must ignore it. Servers handle Transfer-Encoding themselves, and may opt to use Transfer-Encoding: chunked if the application presents a response that has no Content-Length set.

Note that this is not the same as Content-Encoding, which the application still controls, and which is the appropriate place to set gzip or other compression flags.

Keys:

  • type (Unicode string) – "http.response.start".

  • status (int) – HTTP status code.

  • headers (Iterable[[byte string, byte string]]) – An iterable of [name, value] two-item iterables, where name is the header name, and value is the header value. Order must be preserved in the HTTP response. Header names must be lowercased. Optional; if missing defaults to an empty list. Pseudo headers (present in HTTP/2 and HTTP/3) must not be present.

  • trailers (bool) – Signifies if the application will send trailers. If True, the server must wait until it receives a "http.response.trailers" message after the Response Body event. Optional; if missing defaults to False.

Response Body - send event

Continues sending a response to the client. Protocol servers must flush any data passed to them into the send buffer before returning from a send call. If more_body is set to False, and the server is not expecting Response Trailers this will complete the response.

Keys:

  • type (Unicode string) – "http.response.body".

  • body (byte string) – HTTP body content. Concatenated onto any previous body values sent in this connection scope. Optional; if missing defaults to b"".

  • more_body (bool) – Signifies if there is additional content to come (as part of a Response Body message). If False, and the server is not expecting Response Trailers response will be taken as complete and closed, and any further messages on the channel will be ignored. Optional; if missing defaults to False.

Disconnect - receive event

Sent to the application if receive is called after a response has been sent or after the HTTP connection has been closed. This is mainly useful for long-polling, where you may want to trigger cleanup code if the connection closes early.

Keys:

  • type (Unicode string) – "http.disconnect".

WebSocket

WebSockets share some HTTP details - they have a path and headers - but also have more state. Again, most of that state is in the scope, which will live as long as the socket does.

WebSocket protocol servers should handle PING/PONG messages themselves, and send PING messages as necessary to ensure the connection is alive.

WebSocket protocol servers should handle message fragmentation themselves, and deliver complete messages to the application.

The WebSocket protocol should be signified to ASGI applications with a type value of websocket.

Websocket Connection Scope

WebSocket connections’ scope lives as long as the socket itself - if the application dies the socket should be closed, and vice-versa.

The connection scope information passed in scope contains initial connection metadata (mostly from the HTTP request line and headers):

  • type (Unicode string) – "websocket".

  • asgi["version"] (Unicode string) – The version of the ASGI spec.

  • asgi["spec_version"] (Unicode string) – Version of the ASGI HTTP spec this server understands; one of "2.0", "2.1", "2.2" or "2.3". Optional; if missing assume "2.0".

  • http_version (Unicode string) – One of "1.1" or "2". Optional; if missing default is "1.1".

  • scheme (Unicode string) – URL scheme portion (likely "ws" or "wss"). Optional (but must not be empty); default is "ws".

  • path (Unicode string) – HTTP request target excluding any query string, with percent-encoded sequences and UTF-8 byte sequences decoded into characters.

  • raw_path (byte string) – The original HTTP path component unmodified from the bytes that were received by the web server. Some web server implementations may be unable to provide this. Optional; if missing defaults to None.

  • query_string (byte string) – URL portion after the ?. Optional; if missing or None default is empty string.

  • root_path (Unicode string) – The root path this application is mounted at; same as SCRIPT_NAME in WSGI. Optional; if missing defaults to empty string.

  • headers (Iterable[[byte string, byte string]]) – An iterable of [name, value] two-item iterables, where name is the header name and value is the header value. Order should be preserved from the original HTTP request; duplicates are possible and must be preserved in the message as received. Header names should be lowercased, but it is not required; servers should preserve header case on a best-effort basis. Pseudo headers (present in HTTP/2 and HTTP/3) must be removed; if :authority is present its value must be added to the start of the iterable with host as the header name or replace any existing host header already present.

  • client (Iterable[Unicode string, int]) – A two-item iterable of [host, port], where host is the remote host’s IPv4 or IPv6 address, and port is the remote port. Optional; if missing defaults to None.

  • server (Iterable[Unicode string, Optional[int]]) – Either a two-item iterable of [host, port], where host is the listening address for this server, and port is the integer listening port, or [path, None] where path is that of the unix socket. Optional; if missing defaults to None.

  • subprotocols (Iterable[Unicode string]) – Subprotocols the client advertised. Optional; if missing defaults to empty list.

  • state Optional(dict[Unicode string, Any]) – A copy of the namespace passed into the lifespan corresponding to this request. (See Lifespan Protocol). Optional; if missing the server does not support this feature.

Connect - receive event

Sent to the application when the client initially opens a connection and is about to finish the WebSocket handshake.

This message must be responded to with either an Accept message or a Close message before the socket will pass websocket.receive messages. The protocol server must send this message during the handshake phase of the WebSocket and not complete the handshake until it gets a reply, returning HTTP status code 403 if the connection is denied.

Keys:

  • type (Unicode string) – "websocket.connect".

Accept - send event

Sent by the application when it wishes to accept an incoming connection.

  • type (Unicode string) – "websocket.accept".

  • subprotocol (Unicode string) – The subprotocol the server wishes to accept. Optional; if missing defaults to None.

  • headers (Iterable[[byte string, byte string]]) – An iterable of [name, value] two-item iterables, where name is the header name, and value is the header value. Order must be preserved in the HTTP response. Header names must be lowercased. Must not include a header named sec-websocket-protocol; use the subprotocol key instead. Optional; if missing defaults to an empty list. Added in spec version 2.1. Pseudo headers (present in HTTP/2 and HTTP/3) must not be present.

Receive - receive event

Sent to the application when a data message is received from the client.

Keys:

  • type (Unicode string) – "websocket.receive".

  • bytes (byte string) – The message content, if it was binary mode, or None. Optional; if missing, it is equivalent to None.

  • text (Unicode string) – The message content, if it was text mode, or None. Optional; if missing, it is equivalent to None.

Exactly one of bytes or text must be non-None. One or both keys may be present, however.

Send - send event

Sent by the application to send a data message to the client.

Keys:

  • type (Unicode string) – "websocket.send".

  • bytes (byte string) – Binary message content, or None.

    Optional; if missing, it is equivalent to None.

  • text (Unicode string) – Text message content, or None.

    Optional; if missing, it is equivalent to None.

Exactly one of bytes or text must be non-None. One or both keys may be present, however.

Disconnect - receive event

Sent to the application when either connection to the client is lost, either from the client closing the connection, the server closing the connection, or loss of the socket.

Keys:

  • type (Unicode string) – "websocket.disconnect"

  • code (int) – The WebSocket close code, as per the WebSocket spec. If no code was received in the frame from the client, the server should set this to 1005 (the default value in the WebSocket specification).

Close - send event

Sent by the application to tell the server to close the connection.

If this is sent before the socket is accepted, the server must close the connection with a HTTP 403 error code (Forbidden), and not complete the WebSocket handshake; this may present on some browsers as a different WebSocket error code (such as 1006, Abnormal Closure).

If this is sent after the socket is accepted, the server must close the socket with the close code passed in the message (or 1000 if none is specified).

  • type (Unicode string) – "websocket.close".

  • code (int) – The WebSocket close code, as per the WebSocket spec. Optional; if missing defaults to 1000.

  • reason (Unicode string) – A reason given for the closure, can be any string. Optional; if missing or None default is empty string.

WSGI Compatibility

Part of the design of the HTTP portion of this spec is to make sure it aligns well with the WSGI specification, to ensure easy adaptability between both specifications and the ability to keep using WSGI applications with ASGI servers.

WSGI applications, being synchronous, must be run in a threadpool in order to be served, but otherwise their runtime maps onto the HTTP connection scope’s lifetime.

There is an almost direct mapping for the various special keys in WSGI’s environ variable to the http scope:

  • REQUEST_METHOD is the method

  • SCRIPT_NAME is root_path

  • PATH_INFO can be derived by stripping root_path from path

  • QUERY_STRING is query_string

  • CONTENT_TYPE can be extracted from headers

  • CONTENT_LENGTH can be extracted from headers

  • SERVER_NAME and SERVER_PORT are in server

  • REMOTE_HOST/REMOTE_ADDR and REMOTE_PORT are in client

  • SERVER_PROTOCOL is encoded in http_version

  • wsgi.url_scheme is scheme

  • wsgi.input is a StringIO based around the http.request messages

  • wsgi.errors is directed by the wrapper as needed

The start_response callable maps similarly to http.response.start:

  • The status argument becomes status, with the reason phrase dropped.

  • response_headers maps to headers

Yielding content from the WSGI application maps to sending http.response.body messages.

WSGI encoding differences

The WSGI specification (as defined in PEP 3333) specifies that all strings sent to or from the server must be of the str type but only contain codepoints in the ISO-8859-1 (“latin-1”) range. This was due to it originally being designed for Python 2 and its different set of string types.

The ASGI HTTP and WebSocket specifications instead specify each entry of the scope dict as either a byte string or a Unicode string. HTTP, being an older protocol, is sometimes imperfect at specifying encoding, so some decisions of what is Unicode versus bytes may not be obvious.

  • path: URLs can have both percent-encoded and UTF-8 encoded sections. Because decoding these is often done by the underlying server (or sometimes even proxies in the path), this is a Unicode string, fully decoded from both UTF-8 encoding and percent encodings.

  • headers: These are byte strings of the exact byte sequences sent by the client/to be sent by the server. While modern HTTP standards say that headers should be ASCII, older ones did not and allowed a wider range of characters. Frameworks/applications should decode headers as they deem appropriate.

  • query_string: Unlike the path, this is not as subject to server interference and so is presented as its raw byte string version, percent-encoded.

  • root_path: Unicode string to match path.

Version History

  • 2.0 (2017-11-28): Initial non-channel-layer based ASGI spec