view docs/xen-api/wire-protocol.tex @ 18673:687601e21055

Update cpufreq statistic protection

For struct pm_px, there are 3 pointer: pxpt, pt, trans_pt.
Partly free pointer 'pt' and 'trans_pt' will result in little memory
leak, and what is more, will result in protection issue when user
access px statistic info through libxc.

Signed-off-by: Liu, Jinsong <jinsong.liu@intel.com>
author Keir Fraser <keir.fraser@citrix.com>
date Tue Oct 21 09:48:56 2008 +0100 (2008-10-21)
parents a2903704c17a
line source
1 %
2 % Copyright (c) 2006-2007 XenSource, Inc.
3 %
4 % Permission is granted to copy, distribute and/or modify this document under
5 % the terms of the GNU Free Documentation License, Version 1.2 or any later
6 % version published by the Free Software Foundation; with no Invariant
7 % Sections, no Front-Cover Texts and no Back-Cover Texts. A copy of the
8 % license is included in the section entitled
9 % "GNU Free Documentation License" or the file fdl.tex.
10 %
11 % Authors: Ewan Mellor, Richard Sharp, Dave Scott, Jon Harrop.
12 %
14 \section{Wire Protocol for Remote API Calls}
16 API calls are sent over a network to a Xen-enabled host using
17 the XML-RPC protocol. In this Section we describe how the
18 higher-level types used in our API Reference are mapped to
19 primitive XML-RPC types.
21 In our API Reference we specify the signatures of API functions in the following
22 style:
23 \begin{verbatim}
24 (ref_vm Set) VM.get_all()
25 \end{verbatim}
26 This specifies that the function with name {\tt VM.get\_all} takes
27 no parameters and returns a Set of {\tt ref\_vm}s.
28 These types are mapped onto XML-RPC types in a straight-forward manner:
29 \begin{itemize}
30 \item Floats, Bools, DateTimes and Strings map directly to the XML-RPC {\tt
31 double}, {\tt boolean}, {\tt dateTime.iso8601}, and {\tt string} elements.
33 \item all ``{\tt ref\_}'' types are opaque references, encoded as the
34 XML-RPC's {\tt String} type. Users of the API should not make assumptions
35 about the concrete form of these strings and should not expect them to
36 remain valid after the client's session with the server has terminated.
38 \item fields named ``{\tt uuid}'' of type ``{\tt String}'' are mapped to
39 the XML-RPC {\tt String} type. The string itself is the OSF
40 DCE UUID presentation format (as output by {\tt uuidgen}, etc).
42 \item ints are all assumed to be 64-bit in our API and are encoded as a
43 string of decimal digits (rather than using XML-RPC's built-in 32-bit {\tt
44 i4} type).
46 \item values of enum types are encoded as strings. For example, a value of
47 {\tt destroy} of type {\tt on\_normal\_exit}, would be conveyed as:
48 \begin{verbatim}
49 <value><string>destroy</string></value>
50 \end{verbatim}
52 \item for all our types, {\tt t}, our type {\tt t Set} simply maps to
53 XML-RPC's {\tt Array} type, so for example a value of type {\tt cpu\_feature
54 Set} would be transmitted like this:
56 \begin{verbatim}
57 <array>
58 <data>
59 <value><string>CX8</string></value>
60 <value><string>PSE36</string></value>
61 <value><string>FPU</string></value>
62 </data>
63 </array>
64 \end{verbatim}
66 \item for types {\tt k} and {\tt v}, our type {\tt (k, v) Map} maps onto an
67 XML-RPC struct, with the key as the name of the struct. Note that the {\tt
68 (k, v) Map} type is only valid when {\tt k} is a {\tt String}, {\tt Ref}, or
69 {\tt Int}, and in each case the keys of the maps are stringified as
70 above. For example, the {\tt (String, double) Map} containing a the mappings
71 Mike $\rightarrow$ 2.3 and John $\rightarrow$ 1.2 would be represented as:
73 \begin{verbatim}
74 <value>
75 <struct>
76 <member>
77 <name>Mike</name>
78 <value><double>2.3</double></value>
79 </member>
80 <member>
81 <name>John</name>
82 <value><double>1.2</double></value>
83 </member>
84 </struct>
85 </value>
86 \end{verbatim}
88 \item our {\tt Void} type is transmitted as an empty string.
90 \end{itemize}
92 \subsection{Note on References vs UUIDs}
94 References are opaque types --- encoded as XML-RPC strings on the wire --- understood
95 only by the particular server which generated them. Servers are free to choose
96 any concrete representation they find convenient; clients should not make any
97 assumptions or attempt to parse the string contents. References are not guaranteed
98 to be permanent identifiers for objects; clients should not assume that references
99 generated during one session are valid for any future session. References do not
100 allow objects to be compared for equality. Two references to the same object are
101 not guaranteed to be textually identical.
103 UUIDs are intended to be permanent names for objects. They are
104 guaranteed to be in the OSF DCE UUID presentation format (as output by {\tt uuidgen}.
105 Clients may store UUIDs on disk and use them to lookup objects in subsequent sessions
106 with the server. Clients may also test equality on objects by comparing UUID strings.
108 The API provides mechanisms
109 for translating between UUIDs and opaque references. Each class that contains a UUID
110 field provides:
111 \begin{itemize}
112 \item A ``{\tt get\_by\_uuid}'' method that takes a UUID, $u$, and returns an opaque reference
113 to the server-side object that has UUID=$u$;
114 \item A {\tt get\_uuid} function (a regular ``field getter'' RPC) that takes an opaque reference,
115 $r$, and returns the UUID of the server-side object that is referenced by $r$.
116 \end{itemize}
118 \subsection{Return Values/Status Codes}
119 \label{synchronous-result}
121 The return value of an RPC call is an XML-RPC {\tt Struct}.
123 \begin{itemize}
124 \item The first element of the struct is named {\tt Status}; it
125 contains a string value indicating whether the result of the call was
126 a ``{\tt Success}'' or a ``{\tt Failure}''.
127 \end{itemize}
129 If {\tt Status} was set to {\tt Success} then the Struct contains a second
130 element named {\tt Value}:
131 \begin{itemize}
132 \item The element of the struct named {\tt Value} contains the function's return value.
133 \end{itemize}
135 In the case where {\tt Status} is set to {\tt Failure} then
136 the struct contains a second element named {\tt ErrorDescription}:
137 \begin{itemize}
138 \item The element of the struct named {\tt ErrorDescription} contains
139 an array of string values. The first element of the array is an error code;
140 the remainder of the array are strings representing error parameters relating
141 to that code.
142 \end{itemize}
144 For example, an XML-RPC return value from the {\tt host.get\_resident\_VMs}
145 function above
146 may look like this:
147 \begin{verbatim}
148 <struct>
149 <member>
150 <name>Status</name>
151 <value>Success</value>
152 </member>
153 <member>
154 <name>Value</name>
155 <value>
156 <array>
157 <data>
158 <value>81547a35-205c-a551-c577-00b982c5fe00</value>
159 <value>61c85a22-05da-b8a2-2e55-06b0847da503</value>
160 <value>1d401ec4-3c17-35a6-fc79-cee6bd9811fe</value>
161 </data>
162 </array>
163 </value>
164 </member>
165 </struct>
166 \end{verbatim}
168 \section{Making XML-RPC Calls}
170 \subsection{Transport Layer}
172 The following transport layers are currently supported:
173 \begin{itemize}
174 \item HTTP/S for remote administration
175 \item HTTP over Unix domain sockets for local administration
176 \end{itemize}
178 \subsection{Session Layer}
180 The XML-RPC interface is session-based; before you can make arbitrary RPC calls
181 you must login and initiate a session. For example:
182 \begin{verbatim}
183 session_id session.login_with_password(string uname, string pwd)
184 \end{verbatim}
185 Where {\tt uname} and {\tt password} refer to your username and password
186 respectively, as defined by the Xen administrator.
187 The {\tt session\_id} returned by {\tt session.login\_with\_password} is passed
188 to subsequent RPC calls as an authentication token.
190 A session can be terminated with the {\tt session.logout} function:
191 \begin{verbatim}
192 void session.logout(session_id session)
193 \end{verbatim}
195 \subsection{Synchronous and Asynchronous invocation}
197 Each method call (apart from methods on ``Session'' and ``Task'' objects
198 and ``getters'' and ``setters'' derived from fields)
199 can be made either synchronously or asynchronously.
200 A synchronous RPC call blocks until the
201 return value is received; the return value of a synchronous RPC call is
202 exactly as specified in Section~\ref{synchronous-result}.
204 Only synchronous API calls are listed explicitly in this document.
205 All asynchronous versions are in the special {\tt Async} namespace.
206 For example, synchronous call {\tt VM.clone(...)}
207 (described in Chapter~\ref{api-reference})
208 has an asynchronous counterpart, {\tt
209 Async.VM.clone(...)}, that is non-blocking.
211 Instead of returning its result directly, an asynchronous RPC call
212 returns a {\tt task-id}; this identifier is subsequently used
213 to track the status of a running asynchronous RPC. Note that an asynchronous
214 call may fail immediately, before a {\tt task-id} has even been created---to
215 represent this eventuality, the returned {\tt task-id}
216 is wrapped in an XML-RPC struct with a {\tt Status}, {\tt ErrorDescription} and
217 {\tt Value} fields, exactly as specified in Section~\ref{synchronous-result}.
219 The {\tt task-id} is provided in the {\tt Value} field if {\tt Status} is set to
220 {\tt Success}.
222 The RPC call
223 \begin{verbatim}
224 (ref_task Set) Task.get_all(session_id s)
225 \end{verbatim}
226 returns a set of all task IDs known to the system. The status (including any
227 returned result and error codes) of these tasks
228 can then be queried by accessing the fields of the Task object in the usual way.
229 Note that, in order to get a consistent snapshot of a task's state, it is advisable to call the ``get\_record'' function.
231 \section{Example interactive session}
233 This section describes how an interactive session might look, using the python
234 XML-RPC client library.
236 First, initialise python and import the library {\tt xmlrpclib}:
238 \begin{verbatim}
239 \$ python2.4
240 ...
241 >>> import xmlrpclib
242 \end{verbatim}
244 Create a python object referencing the remote server:
246 \begin{verbatim}
247 >>> xen = xmlrpclib.Server("http://test:4464")
248 \end{verbatim}
250 Acquire a session token by logging in with a username and password
251 (error-handling omitted for brevity; the session token is pointed to by the
252 key {\tt 'Value'} in the returned dictionary)
254 \begin{verbatim}
255 >>> session = session.login_with_password("user", "passwd")['Value']
256 \end{verbatim}
258 When serialised, this call looks like the following:
260 \begin{verbatim}
261 <?xml version='1.0'?>
262 <methodCall>
263 <methodName>session.login_with_password</methodName>
264 <params>
265 <param>
266 <value><string>user</string></value>
267 </param>
268 <param>
269 <value><string>passwd</string></value>
270 </param>
271 </params>
272 </methodCall>
273 \end{verbatim}
275 Next, the user may acquire a list of all the VMs known to the host: (Note the
276 call takes the session token as the only parameter)
278 \begin{verbatim}
279 >>> all_vms = host.get_resident_VMs(session)['Value']
280 >>> all_vms
281 ['OpaqueRef:1', 'OpaqueRef:2', 'OpaqueRef:3', 'OpaqueRef:4' ]
282 \end{verbatim}
284 The VM references here have the form {\tt OpaqueRef:X}, though they may not be
285 that simple in the future, and you should treat them as opaque strings.
286 Once a reference to a VM has been acquired a lifecycle operation may be invoked:
288 \begin{verbatim}
289 >>> xen.VM.start(session, all_vms[3], False)
290 {'Status': 'Failure', 'ErrorDescription': ['VM_BAD_POWER_STATE', 'Halted', 'Running']}
291 \end{verbatim}
293 In this case the {\tt start} message has been rejected, because the VM is
294 already running, and so an error response has been returned. These high-level
295 errors are returned as structured data (rather than as XML-RPC faults),
296 allowing them to be internationalised. Finally, here are some examples of
297 using accessors for object fields:
299 \begin{verbatim}
300 >>> xen.VM.get_name_label(session, all_vms[3])['Value']
301 'SMP'
302 >>> xen.VM.get_name_description(session, all_vms[3])['Value']
303 'Debian for Xen'
304 \end{verbatim}