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Anywhere we create a list of just one item or by prepending items (typically because order doesn't matter), we can use QAPI_LIST_PREPEND(). But places where we must keep the list in order by appending remain open-coded until later patches. Note that as a side effect, this also performs a cleanup of two minor issues in qga/commands-posix.c: the old code was performing new = g_malloc0(sizeof(*ret)); which 1) is confusing because you have to verify whether 'new' and 'ret' are variables with the same type, and 2) would conflict with C++ compilation (not an actual problem for this file, but makes copy-and-paste harder). Signed-off-by: Eric Blake <eblake@redhat.com> Message-Id: <20201113011340.463563-5-eblake@redhat.com> Reviewed-by: Markus Armbruster <armbru@redhat.com> Acked-by: Stefan Hajnoczi <stefanha@redhat.com> [Straightforward conflicts due to commita8aa94b5f8
"qga: update schema for guest-get-disks 'dependents' field" and commita10b453a52
"target/mips: Move mips_cpu_add_definition() from helper.c to cpu.c" resolved. Commit message tweaked.] Signed-off-by: Markus Armbruster <armbru@redhat.com>
598 lines
19 KiB
Plaintext
598 lines
19 KiB
Plaintext
= How to write QMP commands using the QAPI framework =
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This document is a step-by-step guide on how to write new QMP commands using
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the QAPI framework. It also shows how to implement new style HMP commands.
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This document doesn't discuss QMP protocol level details, nor does it dive
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into the QAPI framework implementation.
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For an in-depth introduction to the QAPI framework, please refer to
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docs/devel/qapi-code-gen.txt. For documentation about the QMP protocol,
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start with docs/interop/qmp-intro.txt.
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== Overview ==
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Generally speaking, the following steps should be taken in order to write a
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new QMP command.
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1. Define the command and any types it needs in the appropriate QAPI
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schema module.
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2. Write the QMP command itself, which is a regular C function. Preferably,
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the command should be exported by some QEMU subsystem. But it can also be
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added to the monitor/qmp-cmds.c file
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3. At this point the command can be tested under the QMP protocol
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4. Write the HMP command equivalent. This is not required and should only be
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done if it does make sense to have the functionality in HMP. The HMP command
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is implemented in terms of the QMP command
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The following sections will demonstrate each of the steps above. We will start
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very simple and get more complex as we progress.
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=== Testing ===
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For all the examples in the next sections, the test setup is the same and is
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shown here.
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First, QEMU should be started like this:
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# qemu-system-TARGET [...] \
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-chardev socket,id=qmp,port=4444,host=localhost,server \
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-mon chardev=qmp,mode=control,pretty=on
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Then, in a different terminal:
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$ telnet localhost 4444
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Trying 127.0.0.1...
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Connected to localhost.
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Escape character is '^]'.
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{
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"QMP": {
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"version": {
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"qemu": {
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"micro": 50,
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"minor": 15,
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"major": 0
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},
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"package": ""
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},
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"capabilities": [
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]
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}
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}
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The above output is the QMP server saying you're connected. The server is
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actually in capabilities negotiation mode. To enter in command mode type:
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{ "execute": "qmp_capabilities" }
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Then the server should respond:
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{
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"return": {
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}
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}
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Which is QMP's way of saying "the latest command executed OK and didn't return
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any data". Now you're ready to enter the QMP example commands as explained in
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the following sections.
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== Writing a command that doesn't return data ==
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That's the most simple QMP command that can be written. Usually, this kind of
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command carries some meaningful action in QEMU but here it will just print
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"Hello, world" to the standard output.
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Our command will be called "hello-world". It takes no arguments, nor does it
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return any data.
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The first step is defining the command in the appropriate QAPI schema
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module. We pick module qapi/misc.json, and add the following line at
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the bottom:
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{ 'command': 'hello-world' }
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The "command" keyword defines a new QMP command. It's an JSON object. All
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schema entries are JSON objects. The line above will instruct the QAPI to
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generate any prototypes and the necessary code to marshal and unmarshal
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protocol data.
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The next step is to write the "hello-world" implementation. As explained
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earlier, it's preferable for commands to live in QEMU subsystems. But
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"hello-world" doesn't pertain to any, so we put its implementation in
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monitor/qmp-cmds.c:
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void qmp_hello_world(Error **errp)
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{
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printf("Hello, world!\n");
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}
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There are a few things to be noticed:
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1. QMP command implementation functions must be prefixed with "qmp_"
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2. qmp_hello_world() returns void, this is in accordance with the fact that the
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command doesn't return any data
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3. It takes an "Error **" argument. This is required. Later we will see how to
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return errors and take additional arguments. The Error argument should not
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be touched if the command doesn't return errors
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4. We won't add the function's prototype. That's automatically done by the QAPI
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5. Printing to the terminal is discouraged for QMP commands, we do it here
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because it's the easiest way to demonstrate a QMP command
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You're done. Now build qemu, run it as suggested in the "Testing" section,
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and then type the following QMP command:
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{ "execute": "hello-world" }
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Then check the terminal running qemu and look for the "Hello, world" string. If
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you don't see it then something went wrong.
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=== Arguments ===
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Let's add an argument called "message" to our "hello-world" command. The new
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argument will contain the string to be printed to stdout. It's an optional
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argument, if it's not present we print our default "Hello, World" string.
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The first change we have to do is to modify the command specification in the
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schema file to the following:
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{ 'command': 'hello-world', 'data': { '*message': 'str' } }
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Notice the new 'data' member in the schema. It's an JSON object whose each
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element is an argument to the command in question. Also notice the asterisk,
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it's used to mark the argument optional (that means that you shouldn't use it
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for mandatory arguments). Finally, 'str' is the argument's type, which
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stands for "string". The QAPI also supports integers, booleans, enumerations
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and user defined types.
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Now, let's update our C implementation in monitor/qmp-cmds.c:
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void qmp_hello_world(bool has_message, const char *message, Error **errp)
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{
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if (has_message) {
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printf("%s\n", message);
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} else {
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printf("Hello, world\n");
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}
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}
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There are two important details to be noticed:
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1. All optional arguments are accompanied by a 'has_' boolean, which is set
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if the optional argument is present or false otherwise
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2. The C implementation signature must follow the schema's argument ordering,
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which is defined by the "data" member
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Time to test our new version of the "hello-world" command. Build qemu, run it as
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described in the "Testing" section and then send two commands:
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{ "execute": "hello-world" }
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{
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"return": {
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}
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}
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{ "execute": "hello-world", "arguments": { "message": "We love qemu" } }
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{
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"return": {
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}
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}
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You should see "Hello, world" and "We love qemu" in the terminal running qemu,
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if you don't see these strings, then something went wrong.
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=== Errors ===
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QMP commands should use the error interface exported by the error.h header
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file. Basically, most errors are set by calling the error_setg() function.
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Let's say we don't accept the string "message" to contain the word "love". If
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it does contain it, we want the "hello-world" command to return an error:
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void qmp_hello_world(bool has_message, const char *message, Error **errp)
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{
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if (has_message) {
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if (strstr(message, "love")) {
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error_setg(errp, "the word 'love' is not allowed");
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return;
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}
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printf("%s\n", message);
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} else {
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printf("Hello, world\n");
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}
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}
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The first argument to the error_setg() function is the Error pointer
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to pointer, which is passed to all QMP functions. The next argument is a human
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description of the error, this is a free-form printf-like string.
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Let's test the example above. Build qemu, run it as defined in the "Testing"
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section, and then issue the following command:
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{ "execute": "hello-world", "arguments": { "message": "all you need is love" } }
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The QMP server's response should be:
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{
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"error": {
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"class": "GenericError",
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"desc": "the word 'love' is not allowed"
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}
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}
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Note that error_setg() produces a "GenericError" class. In general,
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all QMP errors should have that error class. There are two exceptions
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to this rule:
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1. To support a management application's need to recognize a specific
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error for special handling
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2. Backward compatibility
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If the failure you want to report falls into one of the two cases above,
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use error_set() with a second argument of an ErrorClass value.
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=== Command Documentation ===
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There's only one step missing to make "hello-world"'s implementation complete,
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and that's its documentation in the schema file.
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There are many examples of such documentation in the schema file already, but
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here goes "hello-world"'s new entry for qapi/misc.json:
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##
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# @hello-world:
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#
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# Print a client provided string to the standard output stream.
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#
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# @message: string to be printed
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#
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# Returns: Nothing on success.
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#
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# Notes: if @message is not provided, the "Hello, world" string will
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# be printed instead
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#
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# Since: <next qemu stable release, eg. 1.0>
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##
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{ 'command': 'hello-world', 'data': { '*message': 'str' } }
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Please, note that the "Returns" clause is optional if a command doesn't return
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any data nor any errors.
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=== Implementing the HMP command ===
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Now that the QMP command is in place, we can also make it available in the human
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monitor (HMP).
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With the introduction of the QAPI, HMP commands make QMP calls. Most of the
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time HMP commands are simple wrappers. All HMP commands implementation exist in
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the monitor/hmp-cmds.c file.
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Here's the implementation of the "hello-world" HMP command:
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void hmp_hello_world(Monitor *mon, const QDict *qdict)
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{
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const char *message = qdict_get_try_str(qdict, "message");
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Error *err = NULL;
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qmp_hello_world(!!message, message, &err);
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if (err) {
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monitor_printf(mon, "%s\n", error_get_pretty(err));
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error_free(err);
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return;
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}
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}
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Also, you have to add the function's prototype to the hmp.h file.
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There are three important points to be noticed:
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1. The "mon" and "qdict" arguments are mandatory for all HMP functions. The
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former is the monitor object. The latter is how the monitor passes
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arguments entered by the user to the command implementation
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2. hmp_hello_world() performs error checking. In this example we just print
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the error description to the user, but we could do more, like taking
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different actions depending on the error qmp_hello_world() returns
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3. The "err" variable must be initialized to NULL before performing the
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QMP call
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There's one last step to actually make the command available to monitor users,
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we should add it to the hmp-commands.hx file:
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{
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.name = "hello-world",
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.args_type = "message:s?",
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.params = "hello-world [message]",
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.help = "Print message to the standard output",
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.cmd = hmp_hello_world,
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},
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STEXI
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@item hello_world @var{message}
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@findex hello_world
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Print message to the standard output
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ETEXI
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To test this you have to open a user monitor and issue the "hello-world"
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command. It might be instructive to check the command's documentation with
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HMP's "help" command.
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Please, check the "-monitor" command-line option to know how to open a user
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monitor.
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== Writing a command that returns data ==
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A QMP command is capable of returning any data the QAPI supports like integers,
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strings, booleans, enumerations and user defined types.
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In this section we will focus on user defined types. Please, check the QAPI
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documentation for information about the other types.
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=== User Defined Types ===
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FIXME This example needs to be redone after commit 6d32717
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For this example we will write the query-alarm-clock command, which returns
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information about QEMU's timer alarm. For more information about it, please
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check the "-clock" command-line option.
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We want to return two pieces of information. The first one is the alarm clock's
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name. The second one is when the next alarm will fire. The former information is
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returned as a string, the latter is an integer in nanoseconds (which is not
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very useful in practice, as the timer has probably already fired when the
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information reaches the client).
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The best way to return that data is to create a new QAPI type, as shown below:
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##
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# @QemuAlarmClock
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#
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# QEMU alarm clock information.
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#
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# @clock-name: The alarm clock method's name.
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#
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# @next-deadline: The time (in nanoseconds) the next alarm will fire.
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#
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# Since: 1.0
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##
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{ 'type': 'QemuAlarmClock',
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'data': { 'clock-name': 'str', '*next-deadline': 'int' } }
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The "type" keyword defines a new QAPI type. Its "data" member contains the
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type's members. In this example our members are the "clock-name" and the
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"next-deadline" one, which is optional.
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Now let's define the query-alarm-clock command:
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##
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# @query-alarm-clock
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#
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# Return information about QEMU's alarm clock.
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#
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# Returns a @QemuAlarmClock instance describing the alarm clock method
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# being currently used by QEMU (this is usually set by the '-clock'
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# command-line option).
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#
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# Since: 1.0
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##
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{ 'command': 'query-alarm-clock', 'returns': 'QemuAlarmClock' }
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Notice the "returns" keyword. As its name suggests, it's used to define the
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data returned by a command.
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It's time to implement the qmp_query_alarm_clock() function, you can put it
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in the qemu-timer.c file:
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QemuAlarmClock *qmp_query_alarm_clock(Error **errp)
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{
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QemuAlarmClock *clock;
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int64_t deadline;
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clock = g_malloc0(sizeof(*clock));
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deadline = qemu_next_alarm_deadline();
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if (deadline > 0) {
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clock->has_next_deadline = true;
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clock->next_deadline = deadline;
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}
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clock->clock_name = g_strdup(alarm_timer->name);
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return clock;
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}
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There are a number of things to be noticed:
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1. The QemuAlarmClock type is automatically generated by the QAPI framework,
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its members correspond to the type's specification in the schema file
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2. As specified in the schema file, the function returns a QemuAlarmClock
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instance and takes no arguments (besides the "errp" one, which is mandatory
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for all QMP functions)
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3. The "clock" variable (which will point to our QAPI type instance) is
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allocated by the regular g_malloc0() function. Note that we chose to
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initialize the memory to zero. This is recommended for all QAPI types, as
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it helps avoiding bad surprises (specially with booleans)
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4. Remember that "next_deadline" is optional? All optional members have a
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'has_TYPE_NAME' member that should be properly set by the implementation,
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as shown above
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5. Even static strings, such as "alarm_timer->name", should be dynamically
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allocated by the implementation. This is so because the QAPI also generates
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a function to free its types and it cannot distinguish between dynamically
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or statically allocated strings
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6. You have to include "qapi/qapi-commands-misc.h" in qemu-timer.c
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Time to test the new command. Build qemu, run it as described in the "Testing"
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section and try this:
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{ "execute": "query-alarm-clock" }
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{
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"return": {
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"next-deadline": 2368219,
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"clock-name": "dynticks"
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}
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}
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==== The HMP command ====
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Here's the HMP counterpart of the query-alarm-clock command:
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void hmp_info_alarm_clock(Monitor *mon)
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{
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QemuAlarmClock *clock;
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Error *err = NULL;
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clock = qmp_query_alarm_clock(&err);
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if (err) {
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monitor_printf(mon, "Could not query alarm clock information\n");
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error_free(err);
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return;
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}
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monitor_printf(mon, "Alarm clock method in use: '%s'\n", clock->clock_name);
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if (clock->has_next_deadline) {
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monitor_printf(mon, "Next alarm will fire in %" PRId64 " nanoseconds\n",
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clock->next_deadline);
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}
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qapi_free_QemuAlarmClock(clock);
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}
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It's important to notice that hmp_info_alarm_clock() calls
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qapi_free_QemuAlarmClock() to free the data returned by qmp_query_alarm_clock().
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For user defined types, the QAPI will generate a qapi_free_QAPI_TYPE_NAME()
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function and that's what you have to use to free the types you define and
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qapi_free_QAPI_TYPE_NAMEList() for list types (explained in the next section).
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If the QMP call returns a string, then you should g_free() to free it.
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Also note that hmp_info_alarm_clock() performs error handling. That's not
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strictly required if you're sure the QMP function doesn't return errors, but
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it's good practice to always check for errors.
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Another important detail is that HMP's "info" commands don't go into the
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hmp-commands.hx. Instead, they go into the info_cmds[] table, which is defined
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in the monitor/misc.c file. The entry for the "info alarmclock" follows:
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{
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.name = "alarmclock",
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.args_type = "",
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.params = "",
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.help = "show information about the alarm clock",
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.cmd = hmp_info_alarm_clock,
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},
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To test this, run qemu and type "info alarmclock" in the user monitor.
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=== Returning Lists ===
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For this example, we're going to return all available methods for the timer
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alarm, which is pretty much what the command-line option "-clock ?" does,
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except that we're also going to inform which method is in use.
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This first step is to define a new type:
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##
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# @TimerAlarmMethod
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#
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# Timer alarm method information.
|
|
#
|
|
# @method-name: The method's name.
|
|
#
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|
# @current: true if this alarm method is currently in use, false otherwise
|
|
#
|
|
# Since: 1.0
|
|
##
|
|
{ 'type': 'TimerAlarmMethod',
|
|
'data': { 'method-name': 'str', 'current': 'bool' } }
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|
|
|
The command will be called "query-alarm-methods", here is its schema
|
|
specification:
|
|
|
|
##
|
|
# @query-alarm-methods
|
|
#
|
|
# Returns information about available alarm methods.
|
|
#
|
|
# Returns: a list of @TimerAlarmMethod for each method
|
|
#
|
|
# Since: 1.0
|
|
##
|
|
{ 'command': 'query-alarm-methods', 'returns': ['TimerAlarmMethod'] }
|
|
|
|
Notice the syntax for returning lists "'returns': ['TimerAlarmMethod']", this
|
|
should be read as "returns a list of TimerAlarmMethod instances".
|
|
|
|
The C implementation follows:
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|
|
|
TimerAlarmMethodList *qmp_query_alarm_methods(Error **errp)
|
|
{
|
|
TimerAlarmMethodList *method_list = NULL;
|
|
const struct qemu_alarm_timer *p;
|
|
bool current = true;
|
|
|
|
for (p = alarm_timers; p->name; p++) {
|
|
TimerAlarmMethod *value = g_malloc0(*value);
|
|
value->method_name = g_strdup(p->name);
|
|
value->current = current;
|
|
QAPI_LIST_PREPEND(method_list, value);
|
|
current = false;
|
|
}
|
|
|
|
return method_list;
|
|
}
|
|
|
|
The most important difference from the previous examples is the
|
|
TimerAlarmMethodList type, which is automatically generated by the QAPI from
|
|
the TimerAlarmMethod type.
|
|
|
|
Each list node is represented by a TimerAlarmMethodList instance. We have to
|
|
allocate it, and that's done inside the for loop: the "info" pointer points to
|
|
an allocated node. We also have to allocate the node's contents, which is
|
|
stored in its "value" member. In our example, the "value" member is a pointer
|
|
to an TimerAlarmMethod instance.
|
|
|
|
Notice that the "current" variable is used as "true" only in the first
|
|
iteration of the loop. That's because the alarm timer method in use is the
|
|
first element of the alarm_timers array. Also notice that QAPI lists are handled
|
|
by hand and we return the head of the list.
|
|
|
|
Now Build qemu, run it as explained in the "Testing" section and try our new
|
|
command:
|
|
|
|
{ "execute": "query-alarm-methods" }
|
|
{
|
|
"return": [
|
|
{
|
|
"current": false,
|
|
"method-name": "unix"
|
|
},
|
|
{
|
|
"current": true,
|
|
"method-name": "dynticks"
|
|
}
|
|
]
|
|
}
|
|
|
|
The HMP counterpart is a bit more complex than previous examples because it
|
|
has to traverse the list, it's shown below for reference:
|
|
|
|
void hmp_info_alarm_methods(Monitor *mon)
|
|
{
|
|
TimerAlarmMethodList *method_list, *method;
|
|
Error *err = NULL;
|
|
|
|
method_list = qmp_query_alarm_methods(&err);
|
|
if (err) {
|
|
monitor_printf(mon, "Could not query alarm methods\n");
|
|
error_free(err);
|
|
return;
|
|
}
|
|
|
|
for (method = method_list; method; method = method->next) {
|
|
monitor_printf(mon, "%c %s\n", method->value->current ? '*' : ' ',
|
|
method->value->method_name);
|
|
}
|
|
|
|
qapi_free_TimerAlarmMethodList(method_list);
|
|
}
|