715c18600c
Simplify the text, fix some of the examples. Signed-off-by: Luiz Capitulino <lcapitulino@redhat.com> Reviewed-by: Eric Blake <eblake@redhat.com>
274 lines
9.4 KiB
Plaintext
274 lines
9.4 KiB
Plaintext
QEMU Machine Protocol Specification
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1. Introduction
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===============
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This document specifies the QEMU Machine Protocol (QMP), a JSON-based protocol
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which is available for applications to operate QEMU at the machine-level.
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2. Protocol Specification
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=========================
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This section details the protocol format. For the purpose of this document
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"Client" is any application which is using QMP to communicate with QEMU and
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"Server" is QEMU itself.
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JSON data structures, when mentioned in this document, are always in the
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following format:
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json-DATA-STRUCTURE-NAME
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Where DATA-STRUCTURE-NAME is any valid JSON data structure, as defined by
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the JSON standard:
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http://www.ietf.org/rfc/rfc4627.txt
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For convenience, json-object members and json-array elements mentioned in
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this document will be in a certain order. However, in real protocol usage
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they can be in ANY order, thus no particular order should be assumed.
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2.1 General Definitions
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-----------------------
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2.1.1 All interactions transmitted by the Server are json-objects, always
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terminating with CRLF
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2.1.2 All json-objects members are mandatory when not specified otherwise
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2.2 Server Greeting
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-------------------
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Right when connected the Server will issue a greeting message, which signals
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that the connection has been successfully established and that the Server is
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ready for capabilities negotiation (for more information refer to section
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'4. Capabilities Negotiation').
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The greeting message format is:
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{ "QMP": { "version": json-object, "capabilities": json-array } }
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Where,
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- The "version" member contains the Server's version information (the format
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is the same of the query-version command)
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- The "capabilities" member specify the availability of features beyond the
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baseline specification
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2.3 Issuing Commands
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--------------------
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The format for command execution is:
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{ "execute": json-string, "arguments": json-object, "id": json-value }
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Where,
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- The "execute" member identifies the command to be executed by the Server
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- The "arguments" member is used to pass any arguments required for the
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execution of the command, it is optional when no arguments are required
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- The "id" member is a transaction identification associated with the
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command execution, it is optional and will be part of the response if
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provided
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2.4 Commands Responses
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----------------------
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There are two possible responses which the Server will issue as the result
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of a command execution: success or error.
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2.4.1 success
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-------------
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The format of a success response is:
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{ "return": json-object, "id": json-value }
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Where,
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- The "return" member contains the command returned data, which is defined
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in a per-command basis or an empty json-object if the command does not
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return data
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- The "id" member contains the transaction identification associated
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with the command execution if issued by the Client
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2.4.2 error
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-----------
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The format of an error response is:
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{ "error": { "class": json-string, "desc": json-string }, "id": json-value }
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Where,
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- The "class" member contains the error class name (eg. "GenericError")
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- The "desc" member is a human-readable error message. Clients should
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not attempt to parse this message.
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- The "id" member contains the transaction identification associated with
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the command execution if issued by the Client
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NOTE: Some errors can occur before the Server is able to read the "id" member,
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in these cases the "id" member will not be part of the error response, even
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if provided by the client.
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2.5 Asynchronous events
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-----------------------
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As a result of state changes, the Server may send messages unilaterally
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to the Client at any time. They are called "asynchronous events".
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The format of asynchronous events is:
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{ "event": json-string, "data": json-object,
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"timestamp": { "seconds": json-number, "microseconds": json-number } }
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Where,
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- The "event" member contains the event's name
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- The "data" member contains event specific data, which is defined in a
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per-event basis, it is optional
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- The "timestamp" member contains the exact time of when the event occurred
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in the Server. It is a fixed json-object with time in seconds and
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microseconds
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For a listing of supported asynchronous events, please, refer to the
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qmp-events.txt file.
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3. QMP Examples
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===============
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This section provides some examples of real QMP usage, in all of them
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"C" stands for "Client" and "S" stands for "Server".
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3.1 Server greeting
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-------------------
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S: { "QMP": { "version": { "qemu": { "micro": 50, "minor": 6, "major": 1 },
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"package": ""}, "capabilities": []}}
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3.2 Simple 'stop' execution
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---------------------------
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C: { "execute": "stop" }
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S: { "return": {} }
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3.3 KVM information
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-------------------
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C: { "execute": "query-kvm", "id": "example" }
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S: { "return": { "enabled": true, "present": true }, "id": "example"}
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3.4 Parsing error
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------------------
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C: { "execute": }
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S: { "error": { "class": "GenericError", "desc": "Invalid JSON syntax" } }
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3.5 Powerdown event
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-------------------
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S: { "timestamp": { "seconds": 1258551470, "microseconds": 802384 },
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"event": "POWERDOWN" }
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4. Capabilities Negotiation
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----------------------------
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When a Client successfully establishes a connection, the Server is in
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Capabilities Negotiation mode.
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In this mode only the qmp_capabilities command is allowed to run, all
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other commands will return the CommandNotFound error. Asynchronous
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messages are not delivered either.
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Clients should use the qmp_capabilities command to enable capabilities
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advertised in the Server's greeting (section '2.2 Server Greeting') they
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support.
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When the qmp_capabilities command is issued, and if it does not return an
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error, the Server enters in Command mode where capabilities changes take
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effect, all commands (except qmp_capabilities) are allowed and asynchronous
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messages are delivered.
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5 Compatibility Considerations
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------------------------------
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All protocol changes or new features which modify the protocol format in an
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incompatible way are disabled by default and will be advertised by the
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capabilities array (section '2.2 Server Greeting'). Thus, Clients can check
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that array and enable the capabilities they support.
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The QMP Server performs a type check on the arguments to a command. It
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generates an error if a value does not have the expected type for its
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key, or if it does not understand a key that the Client included. The
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strictness of the Server catches wrong assumptions of Clients about
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the Server's schema. Clients can assume that, when such validation
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errors occur, they will be reported before the command generated any
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side effect.
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However, Clients must not assume any particular:
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- Length of json-arrays
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- Size of json-objects; in particular, future versions of QEMU may add
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new keys and Clients should be able to ignore them.
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- Order of json-object members or json-array elements
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- Amount of errors generated by a command, that is, new errors can be added
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to any existing command in newer versions of the Server
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Of course, the Server does guarantee to send valid JSON. But apart from
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this, a Client should be "conservative in what they send, and liberal in
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what they accept".
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6. Downstream extension of QMP
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------------------------------
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We recommend that downstream consumers of QEMU do *not* modify QMP.
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Management tools should be able to support both upstream and downstream
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versions of QMP without special logic, and downstream extensions are
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inherently at odds with that.
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However, we recognize that it is sometimes impossible for downstreams to
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avoid modifying QMP. Both upstream and downstream need to take care to
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preserve long-term compatibility and interoperability.
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To help with that, QMP reserves JSON object member names beginning with
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'__' (double underscore) for downstream use ("downstream names"). This
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means upstream will never use any downstream names for its commands,
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arguments, errors, asynchronous events, and so forth.
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Any new names downstream wishes to add must begin with '__'. To
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ensure compatibility with other downstreams, it is strongly
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recommended that you prefix your downstream names with '__RFQDN_' where
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RFQDN is a valid, reverse fully qualified domain name which you
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control. For example, a qemu-kvm specific monitor command would be:
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(qemu) __org.linux-kvm_enable_irqchip
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Downstream must not change the server greeting (section 2.2) other than
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to offer additional capabilities. But see below for why even that is
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discouraged.
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Section '5 Compatibility Considerations' applies to downstream as well
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as to upstream, obviously. It follows that downstream must behave
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exactly like upstream for any input not containing members with
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downstream names ("downstream members"), except it may add members
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with downstream names to its output.
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Thus, a client should not be able to distinguish downstream from
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upstream as long as it doesn't send input with downstream members, and
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properly ignores any downstream members in the output it receives.
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Advice on downstream modifications:
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1. Introducing new commands is okay. If you want to extend an existing
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command, consider introducing a new one with the new behaviour
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instead.
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2. Introducing new asynchronous messages is okay. If you want to extend
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an existing message, consider adding a new one instead.
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3. Introducing new errors for use in new commands is okay. Adding new
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errors to existing commands counts as extension, so 1. applies.
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4. New capabilities are strongly discouraged. Capabilities are for
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evolving the basic protocol, and multiple diverging basic protocol
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dialects are most undesirable.
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