mirror of https://gitee.com/openkylin/qemu.git
857 lines
33 KiB
Plaintext
857 lines
33 KiB
Plaintext
= How to use the QAPI code generator =
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Copyright IBM Corp. 2011
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Copyright (C) 2012-2015 Red Hat, Inc.
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This work is licensed under the terms of the GNU GPL, version 2 or
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later. See the COPYING file in the top-level directory.
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== Introduction ==
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QAPI is a native C API within QEMU which provides management-level
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functionality to internal and external users. For external
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users/processes, this interface is made available by a JSON-based wire
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format for the QEMU Monitor Protocol (QMP) for controlling qemu, as
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well as the QEMU Guest Agent (QGA) for communicating with the guest.
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The remainder of this document uses "Client JSON Protocol" when
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referring to the wire contents of a QMP or QGA connection.
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To map Client JSON Protocol interfaces to the native C QAPI
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implementations, a JSON-based schema is used to define types and
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function signatures, and a set of scripts is used to generate types,
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signatures, and marshaling/dispatch code. This document will describe
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how the schemas, scripts, and resulting code are used.
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== QMP/Guest agent schema ==
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A QAPI schema file is designed to be loosely based on JSON
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(http://www.ietf.org/rfc/rfc7159.txt) with changes for quoting style
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and the use of comments; a QAPI schema file is then parsed by a python
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code generation program. A valid QAPI schema consists of a series of
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top-level expressions, with no commas between them. Where
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dictionaries (JSON objects) are used, they are parsed as python
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OrderedDicts so that ordering is preserved (for predictable layout of
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generated C structs and parameter lists). Ordering doesn't matter
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between top-level expressions or the keys within an expression, but
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does matter within dictionary values for 'data' and 'returns' members
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of a single expression. QAPI schema input is written using 'single
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quotes' instead of JSON's "double quotes" (in contrast, Client JSON
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Protocol uses no comments, and while input accepts 'single quotes' as
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an extension, output is strict JSON using only "double quotes"). As
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in JSON, trailing commas are not permitted in arrays or dictionaries.
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Input must be ASCII (although QMP supports full Unicode strings, the
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QAPI parser does not). At present, there is no place where a QAPI
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schema requires the use of JSON numbers or null.
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Comments are allowed; anything between an unquoted # and the following
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newline is ignored. Although there is not yet a documentation
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generator, a form of stylized comments has developed for consistently
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documenting details about an expression and when it was added to the
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schema. The documentation is delimited between two lines of ##, then
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the first line names the expression, an optional overview is provided,
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then individual documentation about each member of 'data' is provided,
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and finally, a 'Since: x.y.z' tag lists the release that introduced
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the expression. Optional fields are tagged with the phrase
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'#optional', often with their default value; and extensions added
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after the expression was first released are also given a '(since
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x.y.z)' comment. For example:
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##
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# @BlockStats:
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#
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# Statistics of a virtual block device or a block backing device.
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#
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# @device: #optional If the stats are for a virtual block device, the name
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# corresponding to the virtual block device.
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#
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# @stats: A @BlockDeviceStats for the device.
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#
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# @parent: #optional This describes the file block device if it has one.
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#
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# @backing: #optional This describes the backing block device if it has one.
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# (Since 2.0)
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#
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# Since: 0.14.0
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##
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{ 'struct': 'BlockStats',
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'data': {'*device': 'str', 'stats': 'BlockDeviceStats',
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'*parent': 'BlockStats',
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'*backing': 'BlockStats'} }
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The schema sets up a series of types, as well as commands and events
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that will use those types. Forward references are allowed: the parser
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scans in two passes, where the first pass learns all type names, and
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the second validates the schema and generates the code. This allows
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the definition of complex structs that can have mutually recursive
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types, and allows for indefinite nesting of Client JSON Protocol that
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satisfies the schema. A type name should not be defined more than
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once. It is permissible for the schema to contain additional types
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not used by any commands or events in the Client JSON Protocol, for
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the side effect of generated C code used internally.
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There are seven top-level expressions recognized by the parser:
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'include', 'command', 'struct', 'enum', 'union', 'alternate', and
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'event'. There are several groups of types: simple types (a number of
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built-in types, such as 'int' and 'str'; as well as enumerations),
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complex types (structs and two flavors of unions), and alternate types
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(a choice between other types). The 'command' and 'event' expressions
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can refer to existing types by name, or list an anonymous type as a
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dictionary. Listing a type name inside an array refers to a
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single-dimension array of that type; multi-dimension arrays are not
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directly supported (although an array of a complex struct that
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contains an array member is possible).
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Types, commands, and events share a common namespace. Therefore,
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generally speaking, type definitions should always use CamelCase for
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user-defined type names, while built-in types are lowercase. Type
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definitions should not end in 'Kind', as this namespace is used for
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creating implicit C enums for visiting union types. Command names,
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and field names within a type, should be all lower case with words
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separated by a hyphen. However, some existing older commands and
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complex types use underscore; when extending such expressions,
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consistency is preferred over blindly avoiding underscore. Event
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names should be ALL_CAPS with words separated by underscore. The
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special string '**' appears for some commands that manually perform
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their own type checking rather than relying on the type-safe code
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produced by the qapi code generators.
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Any name (command, event, type, field, or enum value) beginning with
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"x-" is marked experimental, and may be withdrawn or changed
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incompatibly in a future release. Downstream vendors may add
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extensions; such extensions should begin with a prefix matching
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"__RFQDN_" (for the reverse-fully-qualified-domain-name of the
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vendor), even if the rest of the name uses dash (example:
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__com.redhat_drive-mirror). Other than downstream extensions (with
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leading underscore and the use of dots), all names should begin with a
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letter, and contain only ASCII letters, digits, dash, and underscore.
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It is okay to reuse names that match C keywords; the generator will
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rename a field named "default" in the QAPI to "q_default" in the
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generated C code.
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In the rest of this document, usage lines are given for each
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expression type, with literal strings written in lower case and
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placeholders written in capitals. If a literal string includes a
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prefix of '*', that key/value pair can be omitted from the expression.
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For example, a usage statement that includes '*base':STRUCT-NAME
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means that an expression has an optional key 'base', which if present
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must have a value that forms a struct name.
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=== Built-in Types ===
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The following types are built-in to the parser:
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'str' - arbitrary UTF-8 string
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'int' - 64-bit signed integer (although the C code may place further
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restrictions on acceptable range)
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'number' - floating point number
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'bool' - JSON value of true or false
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'int8', 'int16', 'int32', 'int64' - like 'int', but enforce maximum
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bit size
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'uint8', 'uint16', 'uint32', 'uint64' - unsigned counterparts
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'size' - like 'uint64', but allows scaled suffix from command line
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visitor
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=== Includes ===
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Usage: { 'include': STRING }
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The QAPI schema definitions can be modularized using the 'include' directive:
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{ 'include': 'path/to/file.json' }
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The directive is evaluated recursively, and include paths are relative to the
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file using the directive. Multiple includes of the same file are
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idempotent. No other keys should appear in the expression, and the include
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value should be a string.
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As a matter of style, it is a good idea to have all files be
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self-contained, but at the moment, nothing prevents an included file
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from making a forward reference to a type that is only introduced by
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an outer file. The parser may be made stricter in the future to
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prevent incomplete include files.
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=== Struct types ===
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Usage: { 'struct': STRING, 'data': DICT, '*base': STRUCT-NAME }
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A struct is a dictionary containing a single 'data' key whose
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value is a dictionary. This corresponds to a struct in C or an Object
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in JSON. Each value of the 'data' dictionary must be the name of a
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type, or a one-element array containing a type name. An example of a
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struct is:
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{ 'struct': 'MyType',
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'data': { 'member1': 'str', 'member2': 'int', '*member3': 'str' } }
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The use of '*' as a prefix to the name means the member is optional in
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the corresponding JSON protocol usage.
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The default initialization value of an optional argument should not be changed
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between versions of QEMU unless the new default maintains backward
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compatibility to the user-visible behavior of the old default.
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With proper documentation, this policy still allows some flexibility; for
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example, documenting that a default of 0 picks an optimal buffer size allows
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one release to declare the optimal size at 512 while another release declares
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the optimal size at 4096 - the user-visible behavior is not the bytes used by
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the buffer, but the fact that the buffer was optimal size.
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On input structures (only mentioned in the 'data' side of a command), changing
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from mandatory to optional is safe (older clients will supply the option, and
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newer clients can benefit from the default); changing from optional to
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mandatory is backwards incompatible (older clients may be omitting the option,
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and must continue to work).
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On output structures (only mentioned in the 'returns' side of a command),
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changing from mandatory to optional is in general unsafe (older clients may be
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expecting the field, and could crash if it is missing), although it can be done
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if the only way that the optional argument will be omitted is when it is
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triggered by the presence of a new input flag to the command that older clients
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don't know to send. Changing from optional to mandatory is safe.
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A structure that is used in both input and output of various commands
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must consider the backwards compatibility constraints of both directions
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of use.
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A struct definition can specify another struct as its base.
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In this case, the fields of the base type are included as top-level fields
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of the new struct's dictionary in the Client JSON Protocol wire
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format. An example definition is:
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{ 'struct': 'BlockdevOptionsGenericFormat', 'data': { 'file': 'str' } }
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{ 'struct': 'BlockdevOptionsGenericCOWFormat',
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'base': 'BlockdevOptionsGenericFormat',
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'data': { '*backing': 'str' } }
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An example BlockdevOptionsGenericCOWFormat object on the wire could use
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both fields like this:
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{ "file": "/some/place/my-image",
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"backing": "/some/place/my-backing-file" }
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=== Enumeration types ===
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Usage: { 'enum': STRING, 'data': ARRAY-OF-STRING }
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{ 'enum': STRING, '*prefix': STRING, 'data': ARRAY-OF-STRING }
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An enumeration type is a dictionary containing a single 'data' key
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whose value is a list of strings. An example enumeration is:
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{ 'enum': 'MyEnum', 'data': [ 'value1', 'value2', 'value3' ] }
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Nothing prevents an empty enumeration, although it is probably not
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useful. The list of strings should be lower case; if an enum name
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represents multiple words, use '-' between words. The string 'max' is
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not allowed as an enum value, and values should not be repeated.
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The enum constants will be named by using a heuristic to turn the
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type name into a set of underscore separated words. For the example
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above, 'MyEnum' will turn into 'MY_ENUM' giving a constant name
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of 'MY_ENUM_VALUE1' for the first value. If the default heuristic
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does not result in a desirable name, the optional 'prefix' field
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can be used when defining the enum.
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The enumeration values are passed as strings over the Client JSON
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Protocol, but are encoded as C enum integral values in generated code.
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While the C code starts numbering at 0, it is better to use explicit
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comparisons to enum values than implicit comparisons to 0; the C code
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will also include a generated enum member ending in _MAX for tracking
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the size of the enum, useful when using common functions for
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converting between strings and enum values. Since the wire format
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always passes by name, it is acceptable to reorder or add new
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enumeration members in any location without breaking clients of Client
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JSON Protocol; however, removing enum values would break
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compatibility. For any struct that has a field that will only contain
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a finite set of string values, using an enum type for that field is
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better than open-coding the field to be type 'str'.
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=== Union types ===
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Usage: { 'union': STRING, 'data': DICT }
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or: { 'union': STRING, 'data': DICT, 'base': STRUCT-NAME,
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'discriminator': ENUM-MEMBER-OF-BASE }
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Union types are used to let the user choose between several different
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variants for an object. There are two flavors: simple (no
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discriminator or base), flat (both discriminator and base). A union
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type is defined using a data dictionary as explained in the following
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paragraphs.
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A simple union type defines a mapping from automatic discriminator
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values to data types like in this example:
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{ 'struct': 'FileOptions', 'data': { 'filename': 'str' } }
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{ 'struct': 'Qcow2Options',
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'data': { 'backing-file': 'str', 'lazy-refcounts': 'bool' } }
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{ 'union': 'BlockdevOptions',
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'data': { 'file': 'FileOptions',
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'qcow2': 'Qcow2Options' } }
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In the Client JSON Protocol, a simple union is represented by a
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dictionary that contains the 'type' field as a discriminator, and a
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'data' field that is of the specified data type corresponding to the
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discriminator value, as in these examples:
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{ "type": "file", "data" : { "filename": "/some/place/my-image" } }
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{ "type": "qcow2", "data" : { "backing-file": "/some/place/my-image",
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"lazy-refcounts": true } }
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The generated C code uses a struct containing a union. Additionally,
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an implicit C enum 'NameKind' is created, corresponding to the union
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'Name', for accessing the various branches of the union. No branch of
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the union can be named 'max', as this would collide with the implicit
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enum. The value for each branch can be of any type.
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A flat union definition specifies a struct as its base, and
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avoids nesting on the wire. All branches of the union must be
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complex types, and the top-level fields of the union dictionary on
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the wire will be combination of fields from both the base type and the
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appropriate branch type (when merging two dictionaries, there must be
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no keys in common). The 'discriminator' field must be the name of an
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enum-typed member of the base struct.
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The following example enhances the above simple union example by
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adding a common field 'readonly', renaming the discriminator to
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something more applicable, and reducing the number of {} required on
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the wire:
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{ 'enum': 'BlockdevDriver', 'data': [ 'file', 'qcow2' ] }
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{ 'struct': 'BlockdevCommonOptions',
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'data': { 'driver': 'BlockdevDriver', 'readonly': 'bool' } }
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{ 'union': 'BlockdevOptions',
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'base': 'BlockdevCommonOptions',
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'discriminator': 'driver',
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'data': { 'file': 'FileOptions',
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'qcow2': 'Qcow2Options' } }
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Resulting in these JSON objects:
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{ "driver": "file", "readonly": true,
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"filename": "/some/place/my-image" }
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{ "driver": "qcow2", "readonly": false,
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"backing-file": "/some/place/my-image", "lazy-refcounts": true }
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Notice that in a flat union, the discriminator name is controlled by
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the user, but because it must map to a base member with enum type, the
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code generator can ensure that branches exist for all values of the
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enum (although the order of the keys need not match the declaration of
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the enum). In the resulting generated C data types, a flat union is
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represented as a struct with the base member fields included directly,
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and then a union of structures for each branch of the struct.
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A simple union can always be re-written as a flat union where the base
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class has a single member named 'type', and where each branch of the
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union has a struct with a single member named 'data'. That is,
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{ 'union': 'Simple', 'data': { 'one': 'str', 'two': 'int' } }
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is identical on the wire to:
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{ 'enum': 'Enum', 'data': ['one', 'two'] }
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{ 'struct': 'Base', 'data': { 'type': 'Enum' } }
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{ 'struct': 'Branch1', 'data': { 'data': 'str' } }
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{ 'struct': 'Branch2', 'data': { 'data': 'int' } }
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{ 'union': 'Flat', 'base': 'Base', 'discriminator': 'type',
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'data': { 'one': 'Branch1', 'two': 'Branch2' } }
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=== Alternate types ===
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Usage: { 'alternate': STRING, 'data': DICT }
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An alternate type is one that allows a choice between two or more JSON
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data types (string, integer, number, or object, but currently not
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array) on the wire. The definition is similar to a simple union type,
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where each branch of the union names a QAPI type. For example:
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{ 'alternate': 'BlockRef',
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'data': { 'definition': 'BlockdevOptions',
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'reference': 'str' } }
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Just like for a simple union, an implicit C enum 'NameKind' is created
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to enumerate the branches for the alternate 'Name'.
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Unlike a union, the discriminator string is never passed on the wire
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for the Client JSON Protocol. Instead, the value's JSON type serves
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as an implicit discriminator, which in turn means that an alternate
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can only express a choice between types represented differently in
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JSON. If a branch is typed as the 'bool' built-in, the alternate
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accepts true and false; if it is typed as any of the various numeric
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built-ins, it accepts a JSON number; if it is typed as a 'str'
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built-in or named enum type, it accepts a JSON string; and if it is
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typed as a complex type (struct or union), it accepts a JSON object.
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Two different complex types, for instance, aren't permitted, because
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both are represented as a JSON object.
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The example alternate declaration above allows using both of the
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following example objects:
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{ "file": "my_existing_block_device_id" }
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{ "file": { "driver": "file",
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"readonly": false,
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"filename": "/tmp/mydisk.qcow2" } }
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=== Commands ===
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Usage: { 'command': STRING, '*data': COMPLEX-TYPE-NAME-OR-DICT,
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'*returns': TYPE-NAME,
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'*gen': false, '*success-response': false }
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Commands are defined by using a dictionary containing several members,
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where three members are most common. The 'command' member is a
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mandatory string, and determines the "execute" value passed in a
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Client JSON Protocol command exchange.
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The 'data' argument maps to the "arguments" dictionary passed in as
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part of a Client JSON Protocol command. The 'data' member is optional
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and defaults to {} (an empty dictionary). If present, it must be the
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string name of a complex type, or a dictionary that declares an
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anonymous type with the same semantics as a 'struct' expression, with
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one exception noted below when 'gen' is used.
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The 'returns' member describes what will appear in the "return" field
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of a Client JSON Protocol reply on successful completion of a command.
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The member is optional from the command declaration; if absent, the
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"return" field will be an empty dictionary. If 'returns' is present,
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it must be the string name of a complex or built-in type, a
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one-element array containing the name of a complex or built-in type,
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with one exception noted below when 'gen' is used. Although it is
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permitted to have the 'returns' member name a built-in type or an
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array of built-in types, any command that does this cannot be extended
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to return additional information in the future; thus, new commands
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should strongly consider returning a dictionary-based type or an array
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of dictionaries, even if the dictionary only contains one field at the
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present.
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All commands in Client JSON Protocol use a dictionary to report
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failure, with no way to specify that in QAPI. Where the error return
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is different than the usual GenericError class in order to help the
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client react differently to certain error conditions, it is worth
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documenting this in the comments before the command declaration.
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Some example commands:
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{ 'command': 'my-first-command',
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'data': { 'arg1': 'str', '*arg2': 'str' } }
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{ 'struct': 'MyType', 'data': { '*value': 'str' } }
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{ 'command': 'my-second-command',
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'returns': [ 'MyType' ] }
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which would validate this Client JSON Protocol transaction:
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=> { "execute": "my-first-command",
|
|
"arguments": { "arg1": "hello" } }
|
|
<= { "return": { } }
|
|
=> { "execute": "my-second-command" }
|
|
<= { "return": [ { "value": "one" }, { } ] }
|
|
|
|
In rare cases, QAPI cannot express a type-safe representation of a
|
|
corresponding Client JSON Protocol command. In these cases, if the
|
|
command expression includes the key 'gen' with boolean value false,
|
|
then the 'data' or 'returns' member that intends to bypass generated
|
|
type-safety and do its own manual validation should use an inline
|
|
dictionary definition, with a value of '**' rather than a valid type
|
|
name for the keys that the generated code will not validate. Please
|
|
try to avoid adding new commands that rely on this, and instead use
|
|
type-safe unions. For an example of bypass usage:
|
|
|
|
{ 'command': 'netdev_add',
|
|
'data': {'type': 'str', 'id': 'str', '*props': '**'},
|
|
'gen': false }
|
|
|
|
Normally, the QAPI schema is used to describe synchronous exchanges,
|
|
where a response is expected. But in some cases, the action of a
|
|
command is expected to change state in a way that a successful
|
|
response is not possible (although the command will still return a
|
|
normal dictionary error on failure). When a successful reply is not
|
|
possible, the command expression should include the optional key
|
|
'success-response' with boolean value false. So far, only QGA makes
|
|
use of this field.
|
|
|
|
|
|
=== Events ===
|
|
|
|
Usage: { 'event': STRING, '*data': COMPLEX-TYPE-NAME-OR-DICT }
|
|
|
|
Events are defined with the keyword 'event'. It is not allowed to
|
|
name an event 'MAX', since the generator also produces a C enumeration
|
|
of all event names with a generated _MAX value at the end. When
|
|
'data' is also specified, additional info will be included in the
|
|
event, with similar semantics to a 'struct' expression. Finally there
|
|
will be C API generated in qapi-event.h; when called by QEMU code, a
|
|
message with timestamp will be emitted on the wire.
|
|
|
|
An example event is:
|
|
|
|
{ 'event': 'EVENT_C',
|
|
'data': { '*a': 'int', 'b': 'str' } }
|
|
|
|
Resulting in this JSON object:
|
|
|
|
{ "event": "EVENT_C",
|
|
"data": { "b": "test string" },
|
|
"timestamp": { "seconds": 1267020223, "microseconds": 435656 } }
|
|
|
|
|
|
== Code generation ==
|
|
|
|
Schemas are fed into 3 scripts to generate all the code/files that, paired
|
|
with the core QAPI libraries, comprise everything required to take JSON
|
|
commands read in by a Client JSON Protocol server, unmarshal the arguments into
|
|
the underlying C types, call into the corresponding C function, and map the
|
|
response back to a Client JSON Protocol response to be returned to the user.
|
|
|
|
As an example, we'll use the following schema, which describes a single
|
|
complex user-defined type (which will produce a C struct, along with a list
|
|
node structure that can be used to chain together a list of such types in
|
|
case we want to accept/return a list of this type with a command), and a
|
|
command which takes that type as a parameter and returns the same type:
|
|
|
|
$ cat example-schema.json
|
|
{ 'struct': 'UserDefOne',
|
|
'data': { 'integer': 'int', 'string': 'str' } }
|
|
|
|
{ 'command': 'my-command',
|
|
'data': {'arg1': 'UserDefOne'},
|
|
'returns': 'UserDefOne' }
|
|
|
|
{ 'event': 'MY_EVENT' }
|
|
|
|
=== scripts/qapi-types.py ===
|
|
|
|
Used to generate the C types defined by a schema. The following files are
|
|
created:
|
|
|
|
$(prefix)qapi-types.h - C types corresponding to types defined in
|
|
the schema you pass in
|
|
$(prefix)qapi-types.c - Cleanup functions for the above C types
|
|
|
|
The $(prefix) is an optional parameter used as a namespace to keep the
|
|
generated code from one schema/code-generation separated from others so code
|
|
can be generated/used from multiple schemas without clobbering previously
|
|
created code.
|
|
|
|
Example:
|
|
|
|
$ python scripts/qapi-types.py --output-dir="qapi-generated" \
|
|
--prefix="example-" example-schema.json
|
|
$ cat qapi-generated/example-qapi-types.c
|
|
[Uninteresting stuff omitted...]
|
|
|
|
void qapi_free_UserDefOneList(UserDefOneList *obj)
|
|
{
|
|
QapiDeallocVisitor *md;
|
|
Visitor *v;
|
|
|
|
if (!obj) {
|
|
return;
|
|
}
|
|
|
|
md = qapi_dealloc_visitor_new();
|
|
v = qapi_dealloc_get_visitor(md);
|
|
visit_type_UserDefOneList(v, &obj, NULL, NULL);
|
|
qapi_dealloc_visitor_cleanup(md);
|
|
}
|
|
|
|
|
|
void qapi_free_UserDefOne(UserDefOne *obj)
|
|
{
|
|
QapiDeallocVisitor *md;
|
|
Visitor *v;
|
|
|
|
if (!obj) {
|
|
return;
|
|
}
|
|
|
|
md = qapi_dealloc_visitor_new();
|
|
v = qapi_dealloc_get_visitor(md);
|
|
visit_type_UserDefOne(v, &obj, NULL, NULL);
|
|
qapi_dealloc_visitor_cleanup(md);
|
|
}
|
|
$ cat qapi-generated/example-qapi-types.h
|
|
[Uninteresting stuff omitted...]
|
|
|
|
#ifndef EXAMPLE_QAPI_TYPES_H
|
|
#define EXAMPLE_QAPI_TYPES_H
|
|
|
|
[Built-in types omitted...]
|
|
|
|
typedef struct UserDefOne UserDefOne;
|
|
|
|
typedef struct UserDefOneList {
|
|
union {
|
|
UserDefOne *value;
|
|
uint64_t padding;
|
|
};
|
|
struct UserDefOneList *next;
|
|
} UserDefOneList;
|
|
|
|
|
|
[Functions on built-in types omitted...]
|
|
|
|
struct UserDefOne {
|
|
int64_t integer;
|
|
char *string;
|
|
};
|
|
|
|
void qapi_free_UserDefOneList(UserDefOneList *obj);
|
|
void qapi_free_UserDefOne(UserDefOne *obj);
|
|
|
|
#endif
|
|
|
|
=== scripts/qapi-visit.py ===
|
|
|
|
Used to generate the visitor functions used to walk through and convert
|
|
a QObject (as provided by QMP) to a native C data structure and
|
|
vice-versa, as well as the visitor function used to dealloc a complex
|
|
schema-defined C type.
|
|
|
|
The following files are generated:
|
|
|
|
$(prefix)qapi-visit.c: visitor function for a particular C type, used
|
|
to automagically convert QObjects into the
|
|
corresponding C type and vice-versa, as well
|
|
as for deallocating memory for an existing C
|
|
type
|
|
|
|
$(prefix)qapi-visit.h: declarations for previously mentioned visitor
|
|
functions
|
|
|
|
Example:
|
|
|
|
$ python scripts/qapi-visit.py --output-dir="qapi-generated"
|
|
--prefix="example-" example-schema.json
|
|
$ cat qapi-generated/example-qapi-visit.c
|
|
[Uninteresting stuff omitted...]
|
|
|
|
static void visit_type_UserDefOne_fields(Visitor *m, UserDefOne **obj, Error **errp)
|
|
{
|
|
Error *err = NULL;
|
|
|
|
visit_type_int(m, &(*obj)->integer, "integer", &err);
|
|
if (err) {
|
|
goto out;
|
|
}
|
|
visit_type_str(m, &(*obj)->string, "string", &err);
|
|
if (err) {
|
|
goto out;
|
|
}
|
|
|
|
out:
|
|
error_propagate(errp, err);
|
|
}
|
|
|
|
void visit_type_UserDefOne(Visitor *m, UserDefOne **obj, const char *name, Error **errp)
|
|
{
|
|
Error *err = NULL;
|
|
|
|
visit_start_struct(m, (void **)obj, "UserDefOne", name, sizeof(UserDefOne), &err);
|
|
if (!err) {
|
|
if (*obj) {
|
|
visit_type_UserDefOne_fields(m, obj, errp);
|
|
}
|
|
visit_end_struct(m, &err);
|
|
}
|
|
error_propagate(errp, err);
|
|
}
|
|
|
|
void visit_type_UserDefOneList(Visitor *m, UserDefOneList **obj, const char *name, Error **errp)
|
|
{
|
|
Error *err = NULL;
|
|
GenericList *i, **prev;
|
|
|
|
visit_start_list(m, name, &err);
|
|
if (err) {
|
|
goto out;
|
|
}
|
|
|
|
for (prev = (GenericList **)obj;
|
|
!err && (i = visit_next_list(m, prev, &err)) != NULL;
|
|
prev = &i) {
|
|
UserDefOneList *native_i = (UserDefOneList *)i;
|
|
visit_type_UserDefOne(m, &native_i->value, NULL, &err);
|
|
}
|
|
|
|
error_propagate(errp, err);
|
|
err = NULL;
|
|
visit_end_list(m, &err);
|
|
out:
|
|
error_propagate(errp, err);
|
|
}
|
|
$ cat qapi-generated/example-qapi-visit.h
|
|
[Uninteresting stuff omitted...]
|
|
|
|
#ifndef EXAMPLE_QAPI_VISIT_H
|
|
#define EXAMPLE_QAPI_VISIT_H
|
|
|
|
[Visitors for built-in types omitted...]
|
|
|
|
void visit_type_UserDefOne(Visitor *m, UserDefOne **obj, const char *name, Error **errp);
|
|
void visit_type_UserDefOneList(Visitor *m, UserDefOneList **obj, const char *name, Error **errp);
|
|
|
|
#endif
|
|
|
|
=== scripts/qapi-commands.py ===
|
|
|
|
Used to generate the marshaling/dispatch functions for the commands defined
|
|
in the schema. The following files are generated:
|
|
|
|
$(prefix)qmp-marshal.c: command marshal/dispatch functions for each
|
|
QMP command defined in the schema. Functions
|
|
generated by qapi-visit.py are used to
|
|
convert QObjects received from the wire into
|
|
function parameters, and uses the same
|
|
visitor functions to convert native C return
|
|
values to QObjects from transmission back
|
|
over the wire.
|
|
|
|
$(prefix)qmp-commands.h: Function prototypes for the QMP commands
|
|
specified in the schema.
|
|
|
|
Example:
|
|
|
|
$ python scripts/qapi-commands.py --output-dir="qapi-generated"
|
|
--prefix="example-" example-schema.json
|
|
$ cat qapi-generated/example-qmp-marshal.c
|
|
[Uninteresting stuff omitted...]
|
|
|
|
static void qmp_marshal_output_my_command(UserDefOne *ret_in, QObject **ret_out, Error **errp)
|
|
{
|
|
Error *local_err = NULL;
|
|
QmpOutputVisitor *mo = qmp_output_visitor_new();
|
|
QapiDeallocVisitor *md;
|
|
Visitor *v;
|
|
|
|
v = qmp_output_get_visitor(mo);
|
|
visit_type_UserDefOne(v, &ret_in, "unused", &local_err);
|
|
if (local_err) {
|
|
goto out;
|
|
}
|
|
*ret_out = qmp_output_get_qobject(mo);
|
|
|
|
out:
|
|
error_propagate(errp, local_err);
|
|
qmp_output_visitor_cleanup(mo);
|
|
md = qapi_dealloc_visitor_new();
|
|
v = qapi_dealloc_get_visitor(md);
|
|
visit_type_UserDefOne(v, &ret_in, "unused", NULL);
|
|
qapi_dealloc_visitor_cleanup(md);
|
|
}
|
|
|
|
static void qmp_marshal_input_my_command(QDict *args, QObject **ret, Error **errp)
|
|
{
|
|
Error *local_err = NULL;
|
|
UserDefOne *retval;
|
|
QmpInputVisitor *mi = qmp_input_visitor_new_strict(QOBJECT(args));
|
|
QapiDeallocVisitor *md;
|
|
Visitor *v;
|
|
UserDefOne *arg1 = NULL;
|
|
|
|
v = qmp_input_get_visitor(mi);
|
|
visit_type_UserDefOne(v, &arg1, "arg1", &local_err);
|
|
if (local_err) {
|
|
goto out;
|
|
}
|
|
|
|
retval = qmp_my_command(arg1, &local_err);
|
|
if (local_err) {
|
|
goto out;
|
|
}
|
|
|
|
qmp_marshal_output_my_command(retval, ret, &local_err);
|
|
|
|
out:
|
|
error_propagate(errp, local_err);
|
|
qmp_input_visitor_cleanup(mi);
|
|
md = qapi_dealloc_visitor_new();
|
|
v = qapi_dealloc_get_visitor(md);
|
|
visit_type_UserDefOne(v, &arg1, "arg1", NULL);
|
|
qapi_dealloc_visitor_cleanup(md);
|
|
}
|
|
|
|
static void qmp_init_marshal(void)
|
|
{
|
|
qmp_register_command("my-command", qmp_marshal_input_my_command, QCO_NO_OPTIONS);
|
|
}
|
|
|
|
qapi_init(qmp_init_marshal);
|
|
$ cat qapi-generated/example-qmp-commands.h
|
|
[Uninteresting stuff omitted...]
|
|
|
|
#ifndef EXAMPLE_QMP_COMMANDS_H
|
|
#define EXAMPLE_QMP_COMMANDS_H
|
|
|
|
#include "example-qapi-types.h"
|
|
#include "qapi/qmp/qdict.h"
|
|
#include "qapi/error.h"
|
|
|
|
UserDefOne *qmp_my_command(UserDefOne *arg1, Error **errp);
|
|
|
|
#endif
|
|
|
|
=== scripts/qapi-event.py ===
|
|
|
|
Used to generate the event-related C code defined by a schema. The
|
|
following files are created:
|
|
|
|
$(prefix)qapi-event.h - Function prototypes for each event type, plus an
|
|
enumeration of all event names
|
|
$(prefix)qapi-event.c - Implementation of functions to send an event
|
|
|
|
Example:
|
|
|
|
$ python scripts/qapi-event.py --output-dir="qapi-generated"
|
|
--prefix="example-" example-schema.json
|
|
$ cat qapi-generated/example-qapi-event.c
|
|
[Uninteresting stuff omitted...]
|
|
|
|
void qapi_event_send_my_event(Error **errp)
|
|
{
|
|
QDict *qmp;
|
|
Error *local_err = NULL;
|
|
QMPEventFuncEmit emit;
|
|
emit = qmp_event_get_func_emit();
|
|
if (!emit) {
|
|
return;
|
|
}
|
|
|
|
qmp = qmp_event_build_dict("MY_EVENT");
|
|
|
|
emit(EXAMPLE_QAPI_EVENT_MY_EVENT, qmp, &local_err);
|
|
|
|
error_propagate(errp, local_err);
|
|
QDECREF(qmp);
|
|
}
|
|
|
|
const char *example_QAPIEvent_lookup[] = {
|
|
"MY_EVENT",
|
|
NULL,
|
|
};
|
|
$ cat qapi-generated/example-qapi-event.h
|
|
[Uninteresting stuff omitted...]
|
|
|
|
#ifndef EXAMPLE_QAPI_EVENT_H
|
|
#define EXAMPLE_QAPI_EVENT_H
|
|
|
|
#include "qapi/error.h"
|
|
#include "qapi/qmp/qdict.h"
|
|
#include "example-qapi-types.h"
|
|
|
|
|
|
void qapi_event_send_my_event(Error **errp);
|
|
|
|
extern const char *example_QAPIEvent_lookup[];
|
|
typedef enum example_QAPIEvent {
|
|
EXAMPLE_QAPI_EVENT_MY_EVENT = 0,
|
|
EXAMPLE_QAPI_EVENT_MAX = 1,
|
|
} example_QAPIEvent;
|
|
|
|
#endif
|