VirtualBox

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1<?xml version="1.0" encoding="UTF-8"?>
2<!DOCTYPE book PUBLIC "-//OASIS//DTD DocBook XML V4.3//EN"
3"http://www.oasis-open.org/docbook/xml/4.3/docbookx.dtd">
4<book>
5 <bookinfo>
6 <title>@VBOX_PRODUCT@<superscript>®</superscript></title>
7
8 <subtitle>Programming Guide and Reference</subtitle>
9
10 <edition>Version @VBOX_VERSION_STRING@</edition>
11
12 <corpauthor>@VBOX_VENDOR@</corpauthor>
13
14 <address>http://www.virtualbox.org</address>
15
16 <copyright>
17 <year>2004-@VBOX_C_YEAR@</year>
18
19 <holder>@VBOX_VENDOR@</holder>
20 </copyright>
21 </bookinfo>
22
23 <chapter>
24 <title>Introduction</title>
25
26 <para>VirtualBox comes with comprehensive support for third-party
27 developers. This Software Development Kit (SDK) contains all the
28 documentation and interface files that are needed to write code that
29 interacts with VirtualBox.</para>
30
31 <sect1>
32 <title>Modularity: the building blocks of VirtualBox</title>
33
34 <para>VirtualBox is cleanly separated into several layers, which can be
35 visualized like in the picture below:</para>
36
37 <mediaobject>
38 <imageobject>
39 <imagedata align="center" fileref="images/vbox-components.png"
40 width="12cm" />
41 </imageobject>
42 </mediaobject>
43
44 <para>The orange area represents code that runs in kernel mode, the blue
45 area represents userspace code.</para>
46
47 <para>At the bottom of the stack resides the hypervisor -- the core of
48 the virtualization engine, controlling execution of the virtual machines
49 and making sure they do not conflict with each other or whatever the
50 host computer is doing otherwise.</para>
51
52 <para>On top of the hypervisor, additional internal modules provide
53 extra functionality. For example, the RDP server, which can deliver the
54 graphical output of a VM remotely to an RDP client, is a separate module
55 that is only loosely tacked into the virtual graphics device. Live
56 Migration and Resource Monitor are additional modules currently in the
57 process of being added to VirtualBox.</para>
58
59 <para>What is primarily of interest for purposes of the SDK is the API
60 layer block that sits on top of all the previously mentioned blocks.
61 This API, which we call the <emphasis role="bold">"Main API"</emphasis>,
62 exposes the entire feature set of the virtualization engine below. It is
63 completely documented in this SDK Reference -- see <xref
64 linkend="sdkref_classes" /> and <xref linkend="sdkref_enums" /> -- and
65 available to anyone who wishes to control VirtualBox programmatically.
66 We chose the name "Main API" to differentiate it from other programming
67 interfaces of VirtualBox that may be publicly accessible.</para>
68
69 <para>With the Main API, you can create, configure, start, stop and
70 delete virtual machines, retrieve performance statistics about running
71 VMs, configure the VirtualBox installation in general, and more. In
72 fact, internally, the front-end programs
73 <computeroutput>VirtualBox</computeroutput> and
74 <computeroutput>VBoxManage</computeroutput> use nothing but this API as
75 well -- there are no hidden backdoors into the virtualization engine for
76 our own front-ends. This ensures the entire Main API is both
77 well-documented and well-tested. (The same applies to
78 <computeroutput>VBoxHeadless</computeroutput>, which is not shown in the
79 image.)</para>
80 </sect1>
81
82 <sect1 id="webservice-or-com">
83 <title>Two guises of the same "Main API": the web service or
84 COM/XPCOM</title>
85
86 <para>There are several ways in which the Main API can be called by
87 other code:<orderedlist>
88 <listitem>
89 <para>VirtualBox comes with a <emphasis role="bold">web
90 service</emphasis> that maps nearly the entire Main API. The web
91 service ships in a stand-alone executable
92 (<computeroutput>vboxwebsrv</computeroutput>) that, when running,
93 acts as an HTTP server, accepts SOAP connections and processes
94 them.</para>
95
96 <para>Since the entire web service API is publicly described in a
97 web service description file (in WSDL format), you can write
98 client programs that call the web service in any language with a
99 toolkit that understands WSDL. These days, that includes most
100 programming languages that are available: Java, C++, .NET, PHP,
101 Python, Perl and probably many more.</para>
102
103 <para>All of this is explained in detail in subsequent chapters of
104 this book.</para>
105
106 <para>There are two ways in which you can write client code that
107 uses the web service:<orderedlist>
108 <listitem>
109 <para>For Java as well as Python, the SDK contains
110 easy-to-use classes that allow you to use the web service in
111 an object-oriented, straightforward manner. We shall refer
112 to this as the <emphasis role="bold">"object-oriented web
113 service (OOWS)"</emphasis>.</para>
114
115 <para>The OO bindings for Java are described in <xref
116 linkend="javaapi" />, those for Python in <xref lang=""
117 linkend="glue-python-ws" />.</para>
118 </listitem>
119
120 <listitem>
121 <para>Alternatively, you can use the web service directly,
122 without the object-oriented client layer. We shall refer to
123 this as the <emphasis role="bold">"raw web
124 service"</emphasis>.</para>
125
126 <para>You will then have neither native object orientation
127 nor full type safety, since web services are neither
128 object-oriented nor stateful. However, in this way, you can
129 write client code even in languages for which we do not ship
130 object-oriented client code; all you need is a programming
131 language with a toolkit that can parse WSDL and generate
132 client wrapper code from it.</para>
133
134 <para>We describe this further in <xref
135 linkend="raw-webservice" />, with samples for Java and
136 Perl.</para>
137 </listitem>
138 </orderedlist></para>
139 </listitem>
140
141 <listitem>
142 <para>Internally, for portability and easier maintenance, the Main
143 API is implemented using the <emphasis role="bold">Component
144 Object Model (COM),</emphasis> an interprocess mechanism for
145 software components originally introduced by Microsoft for
146 Microsoft Windows. On a Windows host, VirtualBox will use
147 Microsoft COM; on other hosts where COM is not present, it ships
148 with XPCOM, a free software implementation of COM originally
149 created by the Mozilla project for their browsers.</para>
150
151 <para>So, if you are familiar with COM and the C++ programming
152 language (or with any other programming language that can handle
153 COM/XPCOM objects, such as Java, Visual Basic or C#), then you can
154 use the COM/XPCOM API directly. VirtualBox comes with all
155 necessary files and documentation to build fully functional COM
156 applications. For an introduction, please see <xref
157 linkend="api_com" /> below.</para>
158
159 <para>The VirtualBox front-ends (the graphical user interfaces as
160 well as the command line), which are all written in C++, use
161 COM/XPCOM to call the Main API. Technically, the web service is
162 another front-end to this COM API, mapping almost all of it to
163 SOAP clients.</para>
164 </listitem>
165 </orderedlist></para>
166
167 <para>If you wonder which way to choose, here are a few
168 comparisons:<table>
169 <title>Comparison web service vs. COM/XPCOM</title>
170
171 <tgroup cols="2">
172 <tbody>
173 <row>
174 <entry><emphasis role="bold">Web service</emphasis></entry>
175
176 <entry><emphasis role="bold">COM/XPCOM</emphasis></entry>
177 </row>
178
179 <row>
180 <entry><emphasis role="bold">Pro:</emphasis> Easy to use with
181 Java and Python with the object-oriented web service;
182 extensive support even with other languages (C++, .NET, PHP,
183 Perl and others)</entry>
184
185 <entry><emphasis role="bold">Con:</emphasis> Usable from
186 languages where COM bridge available (most languages on
187 Windows platform, Python and C++ on other hosts)</entry>
188 </row>
189
190 <row>
191 <entry><emphasis role="bold">Pro:</emphasis> Client can be on
192 remote machine</entry>
193
194 <entry><emphasis role="bold">Con: </emphasis>Client must be on
195 the same host where virtual machine is executed</entry>
196 </row>
197
198 <row>
199 <entry><emphasis role="bold">Con: </emphasis>Significant
200 overhead due to XML marshalling over the wire for each method
201 call</entry>
202
203 <entry><emphasis role="bold">Pro: </emphasis>Relatively low
204 invocation overhead</entry>
205 </row>
206 </tbody>
207 </tgroup>
208 </table></para>
209
210 <para>In the following chapters, we will describe the different ways in
211 which to program VirtualBox, starting with the method that is easiest to
212 use and then increase complexity as we go along.</para>
213 </sect1>
214
215 <sect1 id="api_soap_intro">
216 <title>About web services in general</title>
217
218 <para>Web services are a particular type of programming interface.
219 Whereas, with "normal" programming, a program calls an application
220 programming interface (API) defined by another program or the operating
221 system and both sides of the interface have to agree on the calling
222 convention and, in most cases, use the same programming language, web
223 services use Internet standards such as HTTP and XML to
224 communicate.<footnote>
225 <para>In some ways, web services promise to deliver the same thing
226 as CORBA and DCOM did years ago. However, while these previous
227 technologies relied on specific binary protocols and thus proved to
228 be difficult to use between diverging platforms, web services
229 circumvent these incompatibilities by using text-only standards like
230 HTTP and XML. On the downside (and, one could say, typical of things
231 related to XML), a lot of standards are involved before a web
232 service can be implemented. Many of the standards invented around
233 XML are used one way or another. As a result, web services are slow
234 and verbose, and the details can be incredibly messy. The relevant
235 standards here are called SOAP and WSDL, where SOAP describes the
236 format of the messages that are exchanged (an XML document wrapped
237 in an HTTP header), and WSDL is an XML format that describes a
238 complete API provided by a web service. WSDL in turn uses XML Schema
239 to describe types, which is not exactly terse either. However, as
240 you will see from the samples provided in this chapter, the
241 VirtualBox web service shields you from these details and is easy to
242 use.</para>
243 </footnote></para>
244
245 <para>In order to successfully use a web service, a number of things are
246 required -- primarily, a web service accepting connections; service
247 descriptions; and then a client that connects to that web service. The
248 connections are governed by the SOAP standard, which describes how
249 messages are to be exchanged between a service and its clients; the
250 service descriptions are governed by WSDL.</para>
251
252 <para>In the case of VirtualBox, this translates into the following
253 three components:<orderedlist>
254 <listitem>
255 <para>The VirtualBox web service (the "server"): this is the
256 <computeroutput>vboxwebsrv</computeroutput> executable shipped
257 with VirtualBox. Once you start this executable (which acts as a
258 HTTP server on a specific TCP/IP port), clients can connect to the
259 web service and thus control a VirtualBox installation.</para>
260 </listitem>
261
262 <listitem>
263 <para>VirtualBox also comes with WSDL files that describe the
264 services provided by the web service. You can find these files in
265 the <computeroutput>sdk/bindings/webservice/</computeroutput>
266 directory. These files are understood by the web service toolkits
267 that are shipped with most programming languages and enable you to
268 easily access a web service even if you don't use our
269 object-oriented client layers. VirtualBox is shipped with
270 pregenerated web service glue code for several languages (Python,
271 Perl, Java).</para>
272 </listitem>
273
274 <listitem>
275 <para>A client that connects to the web service in order to
276 control the VirtualBox installation.</para>
277
278 <para>Unless you play with some of the samples shipped with
279 VirtualBox, this needs to be written by you.</para>
280 </listitem>
281 </orderedlist></para>
282 </sect1>
283
284 <sect1 id="runvboxwebsrv">
285 <title>Running the web service</title>
286
287 <para>The web service ships in an stand-alone executable,
288 <computeroutput>vboxwebsrv</computeroutput>, that, when running, acts as
289 a HTTP server, accepts SOAP connections and processes them -- remotely
290 or from the same machine.<note>
291 <para>The web service executable is not contained with the
292 VirtualBox SDK, but instead ships with the standard VirtualBox
293 binary package for your specific platform. Since the SDK contains
294 only platform-independent text files and documentation, the binaries
295 are instead shipped with the platform-specific packages. For this
296 reason the information how to run it as a service is included in the
297 VirtualBox documentation.</para>
298 </note></para>
299
300 <para>The <computeroutput>vboxwebsrv</computeroutput> program, which
301 implements the web service, is a text-mode (console) program which,
302 after being started, simply runs until it is interrupted with Ctrl-C or
303 a kill command.</para>
304
305 <para>Once the web service is started, it acts as a front-end to the
306 VirtualBox installation of the user account that it is running under. In
307 other words, if the web service is run under the user account of
308 <computeroutput>user1</computeroutput>, it will see and manipulate the
309 virtual machines and other data represented by the VirtualBox data of
310 that user (for example, on a Linux machine, under
311 <computeroutput>/home/user1/.VirtualBox</computeroutput>; see the
312 VirtualBox User Manual for details on where this data is stored).</para>
313
314 <sect2 id="vboxwebsrv-ref">
315 <title>Command line options of vboxwebsrv</title>
316
317 <para>The web service supports the following command line
318 options:</para>
319
320 <itemizedlist>
321 <listitem>
322 <para><computeroutput>--help</computeroutput> (or
323 <computeroutput>-h</computeroutput>): print a brief summary of
324 command line options.</para>
325 </listitem>
326
327 <listitem>
328 <para><computeroutput>--background</computeroutput> (or
329 <computeroutput>-b</computeroutput>): run the web service as a
330 background daemon. This option is not supported on Windows
331 hosts.</para>
332 </listitem>
333
334 <listitem>
335 <para><computeroutput>--host</computeroutput> (or
336 <computeroutput>-H</computeroutput>): This specifies the host to
337 bind to and defaults to "localhost".</para>
338 </listitem>
339
340 <listitem>
341 <para><computeroutput>--port</computeroutput> (or
342 <computeroutput>-p</computeroutput>): This specifies which port to
343 bind to on the host and defaults to 18083.</para>
344 </listitem>
345
346 <listitem>
347 <para><computeroutput>--ssl</computeroutput> (or
348 <computeroutput>-s</computeroutput>): This enables SSL support.</para>
349 </listitem>
350
351 <listitem>
352 <para><computeroutput>--keyfile</computeroutput> (or
353 <computeroutput>-K</computeroutput>): This specifies the file name
354 containing the server private key and the certificate. This is a
355 mandatory parameter if SSL is enabled.</para>
356 </listitem>
357
358 <listitem>
359 <para><computeroutput>--passwordfile</computeroutput> (or
360 <computeroutput>-a</computeroutput>): This specifies the file name
361 containing the password for the server private key. If unspecified
362 or an empty string is specified this is interpreted as an empty
363 password (i.e. the private key is not protected by a password). If
364 the file name <computeroutput>-</computeroutput> is specified then
365 then the password is read from the standard input stream, otherwise
366 from the specified file. The user is responsible for appropriate
367 access rights to protect the confidential password.</para>
368 </listitem>
369
370 <listitem>
371 <para><computeroutput>--cacert</computeroutput> (or
372 <computeroutput>-c</computeroutput>): This specifies the file name
373 containing the CA certificate appropriate for the server
374 certificate.</para>
375 </listitem>
376
377 <listitem>
378 <para><computeroutput>--capath</computeroutput> (or
379 <computeroutput>-C</computeroutput>): This specifies the directory
380 containing several CA certificates appropriate for the server
381 certificate.</para>
382 </listitem>
383
384 <listitem>
385 <para><computeroutput>--dhfile</computeroutput> (or
386 <computeroutput>-D</computeroutput>): This specifies the file name
387 containing the DH key. Alternatively it can contain the number of
388 bits of the DH key to generate. If left empty, RSA is used.</para>
389 </listitem>
390
391 <listitem>
392 <para><computeroutput>--randfile</computeroutput> (or
393 <computeroutput>-r</computeroutput>): This specifies the file name
394 containing the seed for the random number generator. If left empty,
395 an operating system specific source of the seed.</para>
396 </listitem>
397
398 <listitem>
399 <para><computeroutput>--timeout</computeroutput> (or
400 <computeroutput>-t</computeroutput>): This specifies the session
401 timeout, in seconds, and defaults to 300 (five minutes). A web
402 service client that has logged on but makes no calls to the web
403 service will automatically be disconnected after the number of
404 seconds specified here, as if it had called the
405 <computeroutput>IWebSessionManager::logoff()</computeroutput>
406 method provided by the web service itself.</para>
407
408 <para>It is normally vital that each web service client call this
409 method, as the web service can accumulate large amounts of memory
410 when running, especially if a web service client does not properly
411 release managed object references. As a result, this timeout value
412 should not be set too high, especially on machines with a high
413 load on the web service, or the web service may eventually deny
414 service.</para>
415 </listitem>
416
417 <listitem>
418 <para><computeroutput>--check-interval</computeroutput> (or
419 <computeroutput>-i</computeroutput>): This specifies the interval
420 in which the web service checks for timed-out clients, in seconds,
421 and defaults to 5. This normally does not need to be
422 changed.</para>
423 </listitem>
424
425 <listitem>
426 <para><computeroutput>--threads</computeroutput> (or
427 <computeroutput>-T</computeroutput>): This specifies the maximum
428 number or worker threads, and defaults to 100. This normally does
429 not need to be changed.</para>
430 </listitem>
431
432 <listitem>
433 <para><computeroutput>--keepalive</computeroutput> (or
434 <computeroutput>-k</computeroutput>): This specifies the maximum
435 number of requests which can be sent in one web service connection,
436 and defaults to 100. This normally does not need to be changed.</para>
437 </listitem>
438
439 <listitem>
440 <para><computeroutput>--authentication</computeroutput> (or
441 <computeroutput>-A</computeroutput>): This specifies the desired
442 web service authentication method. If the parameter is not
443 specified or the empty string is specified it does not change the
444 authentication method, otherwise it is set to the specified value.
445 Using this parameter is a good measure against accidental
446 misconfiguration, as the web service ensures periodically that it
447 isn't changed.</para>
448 </listitem>
449
450 <listitem>
451 <para><computeroutput>--verbose</computeroutput> (or
452 <computeroutput>-v</computeroutput>): Normally, the web service
453 outputs only brief messages to the console each time a request is
454 served. With this option, the web service prints much more detailed
455 data about every request and the COM methods that those requests
456 are mapped to internally, which can be useful for debugging client
457 programs.</para>
458 </listitem>
459
460 <listitem>
461 <para><computeroutput>--pidfile</computeroutput> (or
462 <computeroutput>-P</computeroutput>): Name of the PID file which is
463 created when the daemon was started.</para>
464 </listitem>
465
466 <listitem>
467 <para><computeroutput>--logfile</computeroutput> (or
468 <computeroutput>-F</computeroutput>)
469 <computeroutput>&lt;file&gt;</computeroutput>: If this is
470 specified, the web service not only prints its output to the
471 console, but also writes it to the specified file. The file is
472 created if it does not exist; if it does exist, new output is
473 appended to it. This is useful if you run the web service
474 unattended and need to debug problems after they have
475 occurred.</para>
476 </listitem>
477
478 <listitem>
479 <para><computeroutput>--logrotate</computeroutput> (or
480 <computeroutput>-R</computeroutput>): Number of old log files to
481 keep, defaults to 10. Log rotation is disabled if set to 0.</para>
482 </listitem>
483
484 <listitem>
485 <para><computeroutput>--logsize</computeroutput> (or
486 <computeroutput>-S</computeroutput>): Maximum size of log file in
487 bytes, defaults to 100MB. Log rotation is triggered if the file
488 grows beyond this limit.</para>
489 </listitem>
490
491 <listitem>
492 <para><computeroutput>--loginterval</computeroutput> (or
493 <computeroutput>-I</computeroutput>): Maximum time interval to be
494 put in a log file before rotation is triggered, in seconds, and
495 defaults to one day.</para>
496 </listitem>
497 </itemizedlist>
498 </sect2>
499
500 <sect2 id="websrv_authenticate">
501 <title>Authenticating at web service logon</title>
502
503 <para>As opposed to the COM/XPCOM variant of the Main API, a client
504 that wants to use the web service must first log on by calling the
505 <computeroutput>IWebsessionManager::logon()</computeroutput> API (see
506 <xref linkend="IWebsessionManager__logon" />) that is specific to the
507 web service. Logon is necessary for the web service to be stateful;
508 internally, it maintains a session for each client that connects to
509 it.</para>
510
511 <para>The <computeroutput>IWebsessionManager::logon()</computeroutput>
512 API takes a user name and a password as arguments, which the web
513 service then passes to a customizable authentication plugin that
514 performs the actual authentication.</para>
515
516 <para>For testing purposes, it is recommended that you first disable
517 authentication with this command:<screen>VBoxManage setproperty websrvauthlibrary null</screen></para>
518
519 <para><warning>
520 <para>This will cause all logons to succeed, regardless of user
521 name or password. This should of course not be used in a
522 production environment.</para>
523 </warning>Generally, the mechanism by which clients are
524 authenticated is configurable by way of the
525 <computeroutput>VBoxManage</computeroutput> command:</para>
526
527 <para><screen>VBoxManage setproperty websrvauthlibrary default|null|&lt;library&gt;</screen></para>
528
529 <para>This way you can specify any shared object/dynamic link module
530 that conforms with the specifications for VirtualBox external
531 authentication modules as laid out in section <emphasis
532 role="bold">VRDE authentication</emphasis> of the VirtualBox User
533 Manual; the web service uses the same kind of modules as the
534 VirtualBox VRDE server. For technical details on VirtualBox external
535 authentication modules see <xref linkend="vbox-auth" /></para>
536
537 <para>By default, after installation, the web service uses the
538 VBoxAuth module that ships with VirtualBox. This module uses PAM on
539 Linux hosts to authenticate users. Any valid username/password
540 combination is accepted, it does not have to be the username and
541 password of the user running the web service daemon. Unless
542 <computeroutput>vboxwebsrv</computeroutput> runs as root, PAM
543 authentication can fail, because sometimes the file
544 <computeroutput>/etc/shadow</computeroutput>, which is used by PAM, is
545 not readable. On most Linux distribution PAM uses a suid root helper
546 internally, so make sure you test this before deploying it. One can
547 override this behavior by setting the environment variable
548 <computeroutput>VBOX_PAM_ALLOW_INACTIVE</computeroutput> which will
549 suppress failures when unable to read the shadow password file. Please
550 use this variable carefully, and only if you fully understand what
551 you're doing.</para>
552 </sect2>
553 </sect1>
554 </chapter>
555
556 <chapter>
557 <title>Environment-specific notes</title>
558
559 <para>The Main API described in <xref linkend="sdkref_classes" /> and
560 <xref linkend="sdkref_enums" /> is mostly identical in all the supported
561 programming environments which have been briefly mentioned in the
562 introduction of this book. As a result, the Main API's general concepts
563 described in <xref linkend="concepts" /> are the same whether you use the
564 object-oriented web service (OOWS) for JAX-WS or a raw web service
565 connection via, say, Perl, or whether you use C++ COM bindings.</para>
566
567 <para>Some things are different depending on your environment, however.
568 These differences are explained in this chapter.</para>
569
570 <sect1 id="glue">
571 <title>Using the object-oriented web service (OOWS)</title>
572
573 <para>As explained in <xref linkend="webservice-or-com" />, VirtualBox
574 ships with client-side libraries for Java, Python and PHP that allow you
575 to use the VirtualBox web service in an intuitive, object-oriented way.
576 These libraries shield you from the client-side complications of managed
577 object references and other implementation details that come with the
578 VirtualBox web service. (If you are interested in these complications,
579 have a look at <xref linkend="raw-webservice" />).</para>
580
581 <para>We recommend that you start your experiments with the VirtualBox
582 web service by using our object-oriented client libraries for JAX-WS, a
583 web service toolkit for Java, which enables you to write code to
584 interact with VirtualBox in the simplest manner possible.</para>
585
586 <para>As "interfaces", "attributes" and "methods" are COM concepts,
587 please read the documentation in <xref linkend="sdkref_classes" /> and
588 <xref linkend="sdkref_enums" /> with the following notes in mind.</para>
589
590 <para>The OOWS bindings attempt to map the Main API as closely as
591 possible to the Java, Python and PHP languages. In other words, objects
592 are objects, interfaces become classes, and you can call methods on
593 objects as you would on local objects.</para>
594
595 <para>The main difference remains with attributes: to read an attribute,
596 call a "getXXX" method, with "XXX" being the attribute name with a
597 capitalized first letter. So when the Main API Reference says that
598 <computeroutput>IMachine</computeroutput> has a "name" attribute (see
599 <xref linkend="IMachine__name" xreflabel="IMachine::name" />), call
600 <computeroutput>getName()</computeroutput> on an IMachine object to
601 obtain a machine's name. Unless the attribute is marked as read-only in
602 the documentation, there will also be a corresponding "set"
603 method.</para>
604
605 <sect2 id="glue-jax-ws">
606 <title>The object-oriented web service for JAX-WS</title>
607
608 <para>JAX-WS is a powerful toolkit by Sun Microsystems to build both
609 server and client code with Java. It is part of Java 6 (JDK 1.6), but
610 can also be obtained separately for Java 5 (JDK 1.5). The VirtualBox
611 SDK comes with precompiled OOWS bindings working with both Java 5 and
612 6.</para>
613
614 <para>The following sections explain how to get the JAX-WS sample code
615 running and explain a few common practices when using the JAX-WS
616 object-oriented web service.</para>
617
618 <sect3>
619 <title>Preparations</title>
620
621 <para>Since JAX-WS is already integrated into Java 6, no additional
622 preparations are needed for Java 6.</para>
623
624 <para>If you are using Java 5 (JDK 1.5.x), you will first need to
625 download and install an external JAX-WS implementation, as Java 5
626 does not support JAX-WS out of the box; for example, you can
627 download one from here: <ulink
628 url="https://jax-ws.dev.java.net/2.1.4/JAXWS2.1.4-20080502.jar">https://jax-ws.dev.java.net/2.1.4/JAXWS2.1.4-20080502.jar</ulink>.
629 Then perform the installation (<computeroutput>java -jar
630 JAXWS2.1.4-20080502.jar</computeroutput>).</para>
631 </sect3>
632
633 <sect3>
634 <title>Getting started: running the sample code</title>
635
636 <para>To run the OOWS for JAX-WS samples that we ship with the SDK,
637 perform the following steps: <orderedlist>
638 <listitem>
639 <para>Open a terminal and change to the directory where the
640 JAX-WS samples reside.<footnote>
641 <para>In
642 <computeroutput>sdk/bindings/glue/java/</computeroutput>.</para>
643 </footnote> Examine the header of
644 <computeroutput>Makefile</computeroutput> to see if the
645 supplied variables (Java compiler, Java executable) and a few
646 other details match your system settings.</para>
647 </listitem>
648
649 <listitem>
650 <para>To start the VirtualBox web service, open a second
651 terminal and change to the directory where the VirtualBox
652 executables are located. Then type:<screen>./vboxwebsrv -v</screen></para>
653
654 <para>The web service now waits for connections and will run
655 until you press Ctrl+C in this second terminal. The -v
656 argument causes it to log all connections to the terminal.
657 (See <xref linkend="runvboxwebsrv" os="" /> for details on how
658 to run the web service.)</para>
659 </listitem>
660
661 <listitem>
662 <para>Back in the first terminal and still in the samples
663 directory, to start a simple client example just type:<screen>make run16</screen></para>
664
665 <para>if you're on a Java 6 system; on a Java 5 system, run
666 <computeroutput>make run15</computeroutput> instead.</para>
667
668 <para>This should work on all Unix-like systems such as Linux
669 and Solaris. For Windows systems, use commands similar to what
670 is used in the Makefile.</para>
671
672 <para>This will compile the
673 <computeroutput>clienttest.java</computeroutput> code on the
674 first call and then execute the resulting
675 <computeroutput>clienttest</computeroutput> class to show the
676 locally installed VMs (see below).</para>
677 </listitem>
678 </orderedlist></para>
679
680 <para>The <computeroutput>clienttest</computeroutput> sample
681 imitates a few typical command line tasks that
682 <computeroutput>VBoxManage</computeroutput>, VirtualBox's regular
683 command-line front-end, would provide (see the VirtualBox User
684 Manual for details). In particular, you can run:<itemizedlist>
685 <listitem>
686 <para><computeroutput>java clienttest show
687 vms</computeroutput>: show the virtual machines that are
688 registered locally.</para>
689 </listitem>
690
691 <listitem>
692 <para><computeroutput>java clienttest list
693 hostinfo</computeroutput>: show various information about the
694 host this VirtualBox installation runs on.</para>
695 </listitem>
696
697 <listitem>
698 <para><computeroutput>java clienttest startvm
699 &lt;vmname|uuid&gt;</computeroutput>: start the given virtual
700 machine.</para>
701 </listitem>
702 </itemizedlist></para>
703
704 <para>The <computeroutput>clienttest.java</computeroutput> sample
705 code illustrates common basic practices how to use the VirtualBox
706 OOWS for JAX-WS, which we will explain in more detail in the
707 following chapters.</para>
708 </sect3>
709
710 <sect3>
711 <title>Logging on to the web service</title>
712
713 <para>Before a web service client can do anything useful, two
714 objects need to be created, as can be seen in the
715 <computeroutput>clienttest</computeroutput> constructor:<orderedlist>
716 <listitem>
717 <para>An instance of <xref linkend="IWebsessionManager"
718 xreflabel="IWebsessionManager" />, which is an interface
719 provided by the web service to manage "web sessions" -- that
720 is, stateful connections to the web service with persistent
721 objects upon which methods can be invoked.</para>
722
723 <para>In the OOWS for JAX-WS, the IWebsessionManager class
724 must be constructed explicitly, and a URL must be provided in
725 the constructor that specifies where the web service (the
726 server) awaits connections. The code in
727 <computeroutput>clienttest.java</computeroutput> connects to
728 "http://localhost:18083/", which is the default.</para>
729
730 <para>The port number, by default 18083, must match the port
731 number given to the
732 <computeroutput>vboxwebsrv</computeroutput> command line; see
733 <xref linkend="vboxwebsrv-ref" />.</para>
734 </listitem>
735
736 <listitem>
737 <para>After that, the code calls <xref
738 linkend="IWebsessionManager__logon"
739 xreflabel="IWebsessionManager::logon()" />, which is the first
740 call that actually communicates with the server. This
741 authenticates the client with the web service and returns an
742 instance of <xref linkend="IVirtualBox"
743 xreflabel="IVirtualBox" />, the most fundamental interface of
744 the VirtualBox web service, from which all other functionality
745 can be derived.</para>
746
747 <para>If logon doesn't work, please take another look at <xref
748 linkend="websrv_authenticate" />.</para>
749 </listitem>
750 </orderedlist></para>
751 </sect3>
752
753 <sect3>
754 <title>Object management</title>
755
756 <para>The current OOWS for JAX-WS has certain memory management
757 related limitations. When you no longer need an object, call its
758 <xref linkend="IManagedObjectRef__release"
759 xreflabel="IManagedObjectRef::release()" /> method explicitly, which
760 frees appropriate managed reference, as is required by the raw
761 web service; see <xref linkend="managed-object-references" /> for
762 details. This limitation may be reconsidered in a future version of
763 the VirtualBox SDK.</para>
764 </sect3>
765 </sect2>
766
767 <sect2 id="glue-python-ws">
768 <title>The object-oriented web service for Python</title>
769
770 <para>VirtualBox comes with two flavors of a Python API: one for web
771 service, discussed here, and one for the COM/XPCOM API discussed in
772 <xref linkend="pycom" />. The client code is mostly similar, except
773 for the initialization part, so it is up to the application developer
774 to choose the appropriate technology. Moreover, a common Python glue
775 layer exists, abstracting out concrete platform access details, see
776 <xref linkend="glue-python" />.</para>
777
778 <para>As indicated in <xref linkend="webservice-or-com" />, the
779 COM/XPCOM API gives better performance without the SOAP overhead, and
780 does not require a web server to be running. On the other hand, the
781 COM/XPCOM Python API requires a suitable Python bridge for your Python
782 installation (VirtualBox ships the most important ones for each
783 platform<footnote>
784 <para>On On Mac OS X only the Python versions bundled with the OS
785 are officially supported. This means Python 2.3 for 10.4, Python
786 2.5 for 10.5 and Python 2.5 and 2.6 for 10.6.</para>
787 </footnote>). On Windows, you can use the Main API from Python if the Win32 extensions
788 package for Python<footnote>
789 <para>See <ulink
790 url="http://sourceforge.net/project/showfiles.php?group_id=78018">http://sourceforge.net/project/showfiles.php?group_id=78018</ulink>.</para>
791 </footnote> is installed. Version of Python Win32 extensions earlier than 2.16 are known to have bugs,
792 leading to issues with VirtualBox Python bindings, and also some early builds of Python 2.5 for Windows have issues with
793 reporting platform name on some Windows versions, so please make sure to use latest available Python
794 and Win32 extensions.</para>
795
796 <para>The VirtualBox OOWS for Python relies on the Python ZSI SOAP
797 implementation (see <ulink
798 url="http://pywebsvcs.sourceforge.net/zsi.html">http://pywebsvcs.sourceforge.net/zsi.html</ulink>),
799 which you will need to install locally before trying the examples.
800 Most Linux distributions come with package for ZSI, such as
801 <computeroutput>python-zsi</computeroutput> in Ubuntu.</para>
802
803 <para>To get started, open a terminal and change to the
804 <computeroutput>bindings/glue/python/sample</computeroutput>
805 directory, which contains an example of a simple interactive shell
806 able to control a VirtualBox instance. The shell is written using the
807 API layer, thereby hiding different implementation details, so it is
808 actually an example of code share among XPCOM, MSCOM and web services.
809 If you are interested in how to interact with the web services layer
810 directly, have a look at
811 <computeroutput>install/vboxapi/__init__.py</computeroutput> which
812 contains the glue layer for all target platforms (i.e. XPCOM, MSCOM
813 and web services).</para>
814
815 <para>To start the shell, perform the following commands: <screen>/opt/VirtualBox/vboxwebsrv -t 0
816 # start web service with object autocollection disabled
817export VBOX_PROGRAM_PATH=/opt/VirtualBox
818 # your VirtualBox installation directory
819export VBOX_SDK_PATH=/home/youruser/vbox-sdk
820 # where you've extracted the SDK
821./vboxshell.py -w </screen>See <xref linkend="vboxshell" /> for more
822 details on the shell's functionality. For you, as a VirtualBox
823 application developer, the vboxshell sample could be interesting as an
824 example of how to write code targeting both local and remote cases
825 (COM/XPCOM and SOAP). The common part of the shell is the same -- the
826 only difference is how it interacts with the invocation layer. You can
827 use the <computeroutput>connect</computeroutput> shell command to
828 connect to remote VirtualBox servers; in this case you can skip
829 starting the local web server.</para>
830 </sect2>
831
832 <sect2>
833 <title>The object-oriented web service for PHP</title>
834
835 <para>VirtualBox also comes with object-oriented web service (OOWS)
836 wrappers for PHP5. These wrappers rely on the PHP SOAP
837 Extension<footnote>
838 <para>See <ulink url="???">http://www.php.net/soap</ulink>.</para>
839 </footnote>, which can be installed by configuring PHP with
840 <computeroutput>--enable-soap</computeroutput>.</para>
841 </sect2>
842 </sect1>
843
844 <sect1 id="raw-webservice">
845 <title>Using the raw web service with any language</title>
846
847 <para>The following examples show you how to use the raw web service,
848 without the object-oriented client-side code that was described in the
849 previous chapter.</para>
850
851 <para>Generally, when reading the documentation in <xref
852 linkend="sdkref_classes" /> and <xref linkend="sdkref_enums" />, due to
853 the limitations of SOAP and WSDL lined out in <xref
854 linkend="rawws-conventions" />, please have the following notes in
855 mind:</para>
856
857 <para><orderedlist>
858 <listitem>
859 <para>Any COM method call becomes a <emphasis role="bold">plain
860 function call</emphasis> in the raw web service, with the object
861 as an additional first parameter (before the "real" parameters
862 listed in the documentation). So when the documentation says that
863 the <computeroutput>IVirtualBox</computeroutput> interface
864 supports the <computeroutput>createMachine()</computeroutput>
865 method (see <xref linkend="IVirtualBox__createMachine"
866 xreflabel="IVirtualBox::createMachine()" />), the web service
867 operation is
868 <computeroutput>IVirtualBox_createMachine(...)</computeroutput>,
869 and a managed object reference to an
870 <computeroutput>IVirtualBox</computeroutput> object must be passed
871 as the first argument.</para>
872 </listitem>
873
874 <listitem>
875 <para>For <emphasis role="bold">attributes</emphasis> in
876 interfaces, there will be at least one "get" function; there will
877 also be a "set" function, unless the attribute is "readonly". The
878 attribute name will be appended to the "get" or "set" prefix, with
879 a capitalized first letter. So, the "version" readonly attribute
880 of the <computeroutput>IVirtualBox</computeroutput> interface can
881 be retrieved by calling
882 <computeroutput>IVirtualBox_getVersion(vbox)</computeroutput>,
883 with <computeroutput>vbox</computeroutput> being the VirtualBox
884 object.</para>
885 </listitem>
886
887 <listitem>
888 <para>Whenever the API documentation says that a method (or an
889 attribute getter) returns an <emphasis
890 role="bold">object</emphasis>, it will returned a managed object
891 reference in the web service instead. As said above, managed
892 object references should be released if the web service client
893 does not log off again immediately!</para>
894 </listitem>
895 </orderedlist></para>
896
897 <para></para>
898
899 <sect2 id="webservice-java-sample">
900 <title>Raw web service example for Java with Axis</title>
901
902 <para>Axis is an older web service toolkit created by the Apache
903 foundation. If your distribution does not have it installed, you can
904 get a binary from <ulink
905 url="http://www.apache.org">http://www.apache.org</ulink>. The
906 following examples assume that you have Axis 1.4 installed.</para>
907
908 <para>The VirtualBox SDK ships with an example for Axis that, again,
909 is called <computeroutput>clienttest.java</computeroutput> and that
910 imitates a few of the commands of
911 <computeroutput>VBoxManage</computeroutput> over the wire.</para>
912
913 <para>Then perform the following steps:<orderedlist>
914 <listitem>
915 <para>Create a working directory somewhere. Under your
916 VirtualBox installation directory, find the
917 <computeroutput>sdk/webservice/samples/java/axis/</computeroutput>
918 directory and copy the file
919 <computeroutput>clienttest.java</computeroutput> to your working
920 directory.</para>
921 </listitem>
922
923 <listitem>
924 <para>Open a terminal in your working directory. Execute the
925 following command:<screen> java org.apache.axis.wsdl.WSDL2Java /path/to/vboxwebService.wsdl</screen></para>
926
927 <para>The <computeroutput>vboxwebService.wsdl</computeroutput>
928 file should be located in the
929 <computeroutput>sdk/webservice/</computeroutput>
930 directory.</para>
931
932 <para>If this fails, your Apache Axis may not be located on your
933 system classpath, and you may have to adjust the CLASSPATH
934 environment variable. Something like this:<screen>export CLASSPATH="/path-to-axis-1_4/lib/*":$CLASSPATH</screen></para>
935
936 <para>Use the directory where the Axis JAR files are located.
937 Mind the quotes so that your shell passes the "*" character to
938 the java executable without expanding. Alternatively, add a
939 corresponding <computeroutput>-classpath</computeroutput>
940 argument to the "java" call above.</para>
941
942 <para>If the command executes successfully, you should see an
943 "org" directory with subdirectories containing Java source files
944 in your working directory. These classes represent the
945 interfaces that the VirtualBox web service offers, as described
946 by the WSDL file.</para>
947
948 <para>This is the bit that makes using web services so
949 attractive to client developers: if a language's toolkit
950 understands WSDL, it can generate large amounts of support code
951 automatically. Clients can then easily use this support code and
952 can be done with just a few lines of code.</para>
953 </listitem>
954
955 <listitem>
956 <para>Next, compile the
957 <computeroutput>clienttest.java</computeroutput> source:<screen>javac clienttest.java </screen></para>
958
959 <para>This should yield a "clienttest.class" file.</para>
960 </listitem>
961
962 <listitem>
963 <para>To start the VirtualBox web service, open a second
964 terminal and change to the directory where the VirtualBox
965 executables are located. Then type:<screen>./vboxwebsrv -v</screen></para>
966
967 <para>The web service now waits for connections and will run
968 until you press Ctrl+C in this second terminal. The -v argument
969 causes it to log all connections to the terminal. (See <xref
970 linkend="runvboxwebsrv" os="" /> for details on how to run the
971 web service.)</para>
972 </listitem>
973
974 <listitem>
975 <para>Back in the original terminal where you compiled the Java
976 source, run the resulting binary, which will then connect to the
977 web service:<screen>java clienttest</screen></para>
978
979 <para>The client sample will connect to the web service (on
980 localhost, but the code could be changed to connect remotely if
981 the web service was running on a different machine) and make a
982 number of method calls. It will output the version number of
983 your VirtualBox installation and a list of all virtual machines
984 that are currently registered (with a bit of seemingly random
985 data, which will be explained later).</para>
986 </listitem>
987 </orderedlist></para>
988 </sect2>
989
990 <sect2 id="raw-webservice-perl">
991 <title>Raw web service example for Perl</title>
992
993 <para>We also ship a small sample for Perl. It uses the SOAP::Lite
994 perl module to communicate with the VirtualBox web service.</para>
995
996 <para>The
997 <computeroutput>sdk/bindings/webservice/perl/lib/</computeroutput>
998 directory contains a pre-generated Perl module that allows for
999 communicating with the web service from Perl. You can generate such a
1000 module yourself using the "stubmaker" tool that comes with SOAP::Lite,
1001 but since that tool is slow as well as sometimes unreliable, we are
1002 shipping a working module with the SDK for your convenience.</para>
1003
1004 <para>Perform the following steps:<orderedlist>
1005 <listitem>
1006 <para>If SOAP::Lite is not yet installed on your system, you
1007 will need to install the package first. On Debian-based systems,
1008 the package is called
1009 <computeroutput>libsoap-lite-perl</computeroutput>; on Gentoo,
1010 it's <computeroutput>dev-perl/SOAP-Lite</computeroutput>.</para>
1011 </listitem>
1012
1013 <listitem>
1014 <para>Open a terminal in the
1015 <computeroutput>sdk/bindings/webservice/perl/samples/</computeroutput>
1016 directory.</para>
1017 </listitem>
1018
1019 <listitem>
1020 <para>To start the VirtualBox web service, open a second
1021 terminal and change to the directory where the VirtualBox
1022 executables are located. Then type:<screen>./vboxwebsrv -v</screen></para>
1023
1024 <para>The web service now waits for connections and will run
1025 until you press Ctrl+C in this second terminal. The -v argument
1026 causes it to log all connections to the terminal. (See <xref
1027 linkend="runvboxwebsrv" os="" /> for details on how to run the
1028 web service.)</para>
1029 </listitem>
1030
1031 <listitem>
1032 <para>In the first terminal with the Perl sample, run the
1033 clienttest.pl script:<screen>perl -I ../lib clienttest.pl</screen></para>
1034 </listitem>
1035 </orderedlist></para>
1036 </sect2>
1037
1038 <sect2>
1039 <title>Programming considerations for the raw web service</title>
1040
1041 <para>If you use the raw web service, you need to keep a number of
1042 things in mind, or you will sooner or later run into issues that are
1043 not immediately obvious. By contrast, the object-oriented client-side
1044 libraries described in <xref linkend="glue" /> take care of these
1045 things automatically and thus greatly simplify using the web
1046 service.</para>
1047
1048 <sect3 id="rawws-conventions">
1049 <title>Fundamental conventions</title>
1050
1051 <para>If you are familiar with other web services, you may find the
1052 VirtualBox web service to behave a bit differently to accommodate
1053 for the fact that VirtualBox web service more or less maps the
1054 VirtualBox Main COM API. The following main differences had to be
1055 taken care of:<itemizedlist>
1056 <listitem>
1057 <para>Web services, as expressed by WSDL, are not
1058 object-oriented. Even worse, they are normally stateless (or,
1059 in web services terminology, "loosely coupled"). Web service
1060 operations are entirely procedural, and one cannot normally
1061 make assumptions about the state of a web service between
1062 function calls.</para>
1063
1064 <para>In particular, this normally means that you cannot work
1065 on objects in one method call that were created by another
1066 call.</para>
1067 </listitem>
1068
1069 <listitem>
1070 <para>By contrast, the VirtualBox Main API, being expressed in
1071 COM, is object-oriented and works entirely on objects, which
1072 are grouped into public interfaces, which in turn have
1073 attributes and methods associated with them.</para>
1074 </listitem>
1075 </itemizedlist> For the VirtualBox web service, this results in
1076 three fundamental conventions:<orderedlist>
1077 <listitem>
1078 <para>All <emphasis role="bold">function names</emphasis> in
1079 the VirtualBox web service consist of an interface name and a
1080 method name, joined together by an underscore. This is because
1081 there are only functions ("operations") in WSDL, but no
1082 classes, interfaces, or methods.</para>
1083
1084 <para>In addition, all calls to the VirtualBox web service
1085 (except for logon, see below) take a <emphasis
1086 role="bold">managed object reference</emphasis> as the first
1087 argument, representing the object upon which the underlying
1088 method is invoked. (Managed object references are explained in
1089 detail below; see <xref
1090 linkend="managed-object-references" />.)</para>
1091
1092 <para>So, when one would normally code, in the pseudo-code of
1093 an object-oriented language, to invoke a method upon an
1094 object:<screen>IMachine machine;
1095result = machine.getName();</screen></para>
1096
1097 <para>In the VirtualBox web service, this looks something like
1098 this (again, pseudo-code):<screen>IMachineRef machine;
1099result = IMachine_getName(machine);</screen></para>
1100 </listitem>
1101
1102 <listitem>
1103 <para>To make the web service stateful, and objects persistent
1104 between method calls, the VirtualBox web service introduces a
1105 <emphasis role="bold">session manager</emphasis> (by way of
1106 the <xref linkend="IWebsessionManager"
1107 xreflabel="IWebsessionManager" /> interface), which manages
1108 object references. Any client wishing to interact with the web
1109 service must first log on to the session manager and in turn
1110 receives a managed object reference to an object that supports
1111 the <xref linkend="IVirtualBox" xreflabel="IVirtualBox" />
1112 interface (the basic interface in the Main API).</para>
1113 </listitem>
1114 </orderedlist></para>
1115
1116 <para>In other words, as opposed to other web services, <emphasis
1117 role="bold">the VirtualBox web service is both object-oriented and
1118 stateful.</emphasis></para>
1119 </sect3>
1120
1121 <sect3>
1122 <title>Example: A typical web service client session</title>
1123
1124 <para>A typical short web service session to retrieve the version
1125 number of the VirtualBox web service (to be precise, the underlying
1126 Main API version number) looks like this:<orderedlist>
1127 <listitem>
1128 <para>A client logs on to the web service by calling <xref
1129 linkend="IWebsessionManager__logon"
1130 xreflabel="IWebsessionManager::logon()" /> with a valid user
1131 name and password. See <xref linkend="websrv_authenticate" />
1132 for details about how authentication works.</para>
1133 </listitem>
1134
1135 <listitem>
1136 <para>On the server side,
1137 <computeroutput>vboxwebsrv</computeroutput> creates a session,
1138 which persists until the client calls <xref
1139 linkend="IWebsessionManager__logoff"
1140 xreflabel="IWebsessionManager::logoff()" /> or the session
1141 times out after a configurable period of inactivity (see <xref
1142 linkend="vboxwebsrv-ref" />).</para>
1143
1144 <para>For the new session, the web service creates an instance
1145 of <xref linkend="IVirtualBox" xreflabel="IVirtualBox" />.
1146 This interface is the most central one in the Main API and
1147 allows access to all other interfaces, either through
1148 attributes or method calls. For example, IVirtualBox contains
1149 a list of all virtual machines that are currently registered
1150 (as they would be listed on the left side of the VirtualBox
1151 main program).</para>
1152
1153 <para>The web service then creates a managed object reference
1154 for this instance of IVirtualBox and returns it to the calling
1155 client, which receives it as the return value of the logon
1156 call. Something like this:</para>
1157
1158 <screen>string oVirtualBox;
1159oVirtualBox = webservice.IWebsessionManager_logon("user", "pass");</screen>
1160
1161 <para>(The managed object reference "oVirtualBox" is just a
1162 string consisting of digits and dashes. However, it is a
1163 string with a meaning and will be checked by the web service.
1164 For details, see below. As hinted above, <xref
1165 linkend="IWebsessionManager__logon"
1166 xreflabel="IWebsessionManager::logon()" /> is the
1167 <emphasis>only</emphasis> operation provided by the web
1168 service which does not take a managed object reference as the
1169 first argument!)</para>
1170 </listitem>
1171
1172 <listitem>
1173 <para>The VirtualBox Main API documentation says that the
1174 <computeroutput>IVirtualBox</computeroutput> interface has a
1175 <xref linkend="IVirtualBox__version" xreflabel="version" />
1176 attribute, which is a string. For each attribute, there is a
1177 "get" and a "set" method in COM, which maps to according
1178 operations in the web service. So, to retrieve the "version"
1179 attribute of this <computeroutput>IVirtualBox</computeroutput>
1180 object, the web service client does this:<screen>string version;
1181version = webservice.IVirtualBox_getVersion(oVirtualBox);
1182
1183print version;</screen></para>
1184
1185 <para>And it will print
1186 "@VBOX_VERSION_MAJOR@.@VBOX_VERSION_MINOR@.@VBOX_VERSION_BUILD@".</para>
1187 </listitem>
1188
1189 <listitem>
1190 <para>The web service client calls <xref
1191 linkend="IWebsessionManager__logoff"
1192 xreflabel="IWebsessionManager::logoff()" /> with the
1193 VirtualBox managed object reference. This will clean up all
1194 allocated resources.</para>
1195 </listitem>
1196 </orderedlist></para>
1197 </sect3>
1198
1199 <sect3 id="managed-object-references">
1200 <title>Managed object references</title>
1201
1202 <para>To a web service client, a managed object reference looks like
1203 a string: two 64-bit hex numbers separated by a dash. This string,
1204 however, represents a COM object that "lives" in the web service
1205 process. The two 64-bit numbers encoded in the managed object
1206 reference represent a session ID (which is the same for all objects
1207 in the same web service session, i.e. for all objects after one
1208 logon) and a unique object ID within that session.</para>
1209
1210 <para>Managed object references are created in two
1211 situations:<orderedlist>
1212 <listitem>
1213 <para>When a client logs on, by calling <xref
1214 linkend="IWebsessionManager__logon"
1215 xreflabel="IWebsessionManager::logon()" />.</para>
1216
1217 <para>Upon logon, the websession manager creates one instance
1218 of <xref linkend="IVirtualBox" xreflabel="IVirtualBox" /> and
1219 another object of <xref linkend="ISession"
1220 xreflabel="ISession" /> representing the web service session.
1221 This can be retrieved using <xref
1222 linkend="IWebsessionManager__getSessionObject"
1223 xreflabel="IWebsessionManager::getSessionObject()" />.</para>
1224
1225 <para>(Technically, there is always only one <xref
1226 linkend="IVirtualBox" xreflabel="IVirtualBox" /> object, which
1227 is shared between all sessions and clients, as it is a COM
1228 singleton. However, each session receives its own managed
1229 object reference to it. The <xref linkend="ISession"
1230 xreflabel="ISession" /> object, however, is created and
1231 destroyed for each session.)</para>
1232 </listitem>
1233
1234 <listitem>
1235 <para>Whenever a web service clients invokes an operation
1236 whose COM implementation creates COM objects.</para>
1237
1238 <para>For example, <xref linkend="IVirtualBox__createMachine"
1239 xreflabel="IVirtualBox::createMachine()" /> creates a new
1240 instance of <xref linkend="IMachine" xreflabel="IMachine" />;
1241 the COM object returned by the COM method call is then wrapped
1242 into a managed object reference by the web server, and this
1243 reference is returned to the web service client.</para>
1244 </listitem>
1245 </orderedlist></para>
1246
1247 <para>Internally, in the web service process, each managed object
1248 reference is simply a small data structure, containing a COM pointer
1249 to the "real" COM object, the web session ID and the object ID. This
1250 structure is allocated on creation and stored efficiently in hashes,
1251 so that the web service can look up the COM object quickly whenever
1252 a web service client wishes to make a method call. The random
1253 session ID also ensures that one web service client cannot intercept
1254 the objects of another.</para>
1255
1256 <para>Managed object references are not destroyed automatically and
1257 must be released by explicitly calling <xref
1258 linkend="IManagedObjectRef__release"
1259 xreflabel="IManagedObjectRef::release()" />. This is important, as
1260 otherwise hundreds or thousands of managed object references (and
1261 corresponding COM objects, which can consume much more memory!) can
1262 pile up in the web service process and eventually cause it to deny
1263 service.</para>
1264
1265 <para>To reiterate: The underlying COM object, which the reference
1266 points to, is only freed if the managed object reference is
1267 released. It is therefore vital that web service clients properly
1268 clean up after the managed object references that are returned to
1269 them.</para>
1270
1271 <para>When a web service client calls <xref
1272 linkend="IWebsessionManager__logoff"
1273 xreflabel="IWebsessionManager::logoff()" />, all managed object
1274 references created during the session are automatically freed. For
1275 short-lived sessions that do not create a lot of objects, logging
1276 off may therefore be sufficient, although it is certainly not "best
1277 practice".</para>
1278 </sect3>
1279
1280 <sect3>
1281 <title>Some more detail about web service operation</title>
1282
1283 <sect4 id="soap">
1284 <title>SOAP messages</title>
1285
1286 <para>Whenever a client makes a call to a web service, this
1287 involves a complicated procedure internally. These calls are
1288 remote procedure calls. Each such procedure call typically
1289 consists of two "message" being passed, where each message is a
1290 plain-text HTTP request with a standard HTTP header and a special
1291 XML document following. This XML document encodes the name of the
1292 procedure to call and the argument names and values passed to
1293 it.</para>
1294
1295 <para>To give you an idea of what such a message looks like,
1296 assuming that a web service provides a procedure called
1297 "SayHello", which takes a string "name" as an argument and returns
1298 "Hello" with a space and that name appended, the request message
1299 could look like this:</para>
1300
1301 <para><screen>&lt;?xml version="1.0" encoding="UTF-8"?&gt;
1302&lt;SOAP-ENV:Envelope
1303 xmlns:SOAP-ENV="http://schemas.xmlsoap.org/soap/envelope/"
1304 xmlns:SOAP-ENC="http://schemas.xmlsoap.org/soap/encoding/"
1305 xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
1306 xmlns:xsd="http://www.w3.org/2001/XMLSchema"
1307 xmlns:test="http://test/"&gt;
1308&lt;SOAP-ENV:Body&gt;
1309 &lt;test:SayHello&gt;
1310 &lt;name&gt;Peter&lt;/name&gt;
1311 &lt;/test:SayHello&gt;
1312 &lt;/SOAP-ENV:Body&gt;
1313&lt;/SOAP-ENV:Envelope&gt;</screen>A similar message -- the "response" message
1314 -- would be sent back from the web service to the client,
1315 containing the return value "Hello Peter".</para>
1316
1317 <para>Most programming languages provide automatic support to
1318 generate such messages whenever code in that programming language
1319 makes such a request. In other words, these programming languages
1320 allow for writing something like this (in pseudo-C++ code):</para>
1321
1322 <para><screen>webServiceClass service("localhost", 18083); // server and port
1323string result = service.SayHello("Peter"); // invoke remote procedure</screen>and
1324 would, for these two pseudo-lines, automatically perform these
1325 steps:</para>
1326
1327 <para><orderedlist>
1328 <listitem>
1329 <para>prepare a connection to a web service running on port
1330 18083 of "localhost";</para>
1331 </listitem>
1332
1333 <listitem>
1334 <para>for the <computeroutput>SayHello()</computeroutput>
1335 function of the web service, generate a SOAP message like in
1336 the above example by encoding all arguments of the remote
1337 procedure call (which could involve all kinds of type
1338 conversions and complex marshalling for arrays and
1339 structures);</para>
1340 </listitem>
1341
1342 <listitem>
1343 <para>connect to the web service via HTTP and send that
1344 message;</para>
1345 </listitem>
1346
1347 <listitem>
1348 <para>wait for the web service to send a response
1349 message;</para>
1350 </listitem>
1351
1352 <listitem>
1353 <para>decode that response message and put the return value
1354 of the remote procedure into the "result" variable.</para>
1355 </listitem>
1356 </orderedlist></para>
1357 </sect4>
1358
1359 <sect4 id="wsdl">
1360 <title>Service descriptions in WSDL</title>
1361
1362 <para>In the above explanations about SOAP, it was left open how
1363 the programming language learns about how to translate function
1364 calls in its own syntax into proper SOAP messages. In other words,
1365 the programming language needs to know what operations the web
1366 service supports and what types of arguments are required for the
1367 operation's data in order to be able to properly serialize and
1368 deserialize the data to and from the web service. For example, if
1369 a web service operation expects a number in "double" floating
1370 point format for a particular parameter, the programming language
1371 cannot send to it a string instead.</para>
1372
1373 <para>For this, the Web Service Definition Language (WSDL) was
1374 invented, another XML substandard that describes exactly what
1375 operations the web service supports and, for each operation, which
1376 parameters and types are needed with each request and response
1377 message. WSDL descriptions can be incredibly verbose, and one of
1378 the few good things that can be said about this standard is that
1379 it is indeed supported by most programming languages.</para>
1380
1381 <para>So, if it is said that a programming language "supports" web
1382 services, this typically means that a programming language has
1383 support for parsing WSDL files and somehow integrating the remote
1384 procedure calls into the native language syntax -- for example,
1385 like in the Java sample shown in <xref
1386 linkend="webservice-java-sample" />.</para>
1387
1388 <para>For details about how programming languages support web
1389 services, please refer to the documentation that comes with the
1390 individual languages. Here are a few pointers:</para>
1391
1392 <orderedlist>
1393 <listitem>
1394 <para>For <emphasis role="bold">C++,</emphasis> among many
1395 others, the gSOAP toolkit is a good option. Parts of gSOAP are
1396 also used in VirtualBox to implement the VirtualBox web
1397 service.</para>
1398 </listitem>
1399
1400 <listitem>
1401 <para>For <emphasis role="bold">Java,</emphasis> there are
1402 several implementations already described in this document
1403 (see <xref linkend="glue-jax-ws" /> and <xref
1404 linkend="webservice-java-sample" />).</para>
1405 </listitem>
1406
1407 <listitem>
1408 <para><emphasis role="bold">Perl</emphasis> supports WSDL via
1409 the SOAP::Lite package. This in turn comes with a tool called
1410 <computeroutput>stubmaker.pl</computeroutput> that allows you
1411 to turn any WSDL file into a Perl package that you can import.
1412 (You can also import any WSDL file "live" by having it parsed
1413 every time the script runs, but that can take a while.) You
1414 can then code (again, assuming the above example):<screen>my $result = servicename-&gt;sayHello("Peter");</screen></para>
1415
1416 <para>A sample that uses SOAP::Lite was described in <xref
1417 linkend="raw-webservice-perl" />.</para>
1418 </listitem>
1419 </orderedlist>
1420 </sect4>
1421 </sect3>
1422 </sect2>
1423 </sect1>
1424
1425 <sect1 id="api_com">
1426 <title>Using COM/XPCOM directly</title>
1427
1428 <para>If you do not require <emphasis>remote</emphasis> procedure calls
1429 such as those offered by the VirtualBox web service, and if you know
1430 Python or C++ as well as COM, you might find it preferable to program
1431 VirtualBox's Main API directly via COM.</para>
1432
1433 <para>COM stands for "Component Object Model" and is a standard
1434 originally introduced by Microsoft in the 1990s for Microsoft Windows.
1435 It allows for organizing software in an object-oriented way and across
1436 processes; code in one process may access objects that live in another
1437 process.</para>
1438
1439 <para>COM has several advantages: it is language-neutral, meaning that
1440 even though all of VirtualBox is internally written in C++, programs
1441 written in other languages could communicate with it. COM also cleanly
1442 separates interface from implementation, so that external programs need
1443 not know anything about the messy and complicated details of VirtualBox
1444 internals.</para>
1445
1446 <para>On a Windows host, all parts of VirtualBox will use the COM
1447 functionality that is native to Windows. On other hosts (including
1448 Linux), VirtualBox comes with a built-in implementation of XPCOM, as
1449 originally created by the Mozilla project, which we have enhanced to
1450 support interprocess communication on a level comparable to Microsoft
1451 COM. Internally, VirtualBox has an abstraction layer that allows the
1452 same VirtualBox code to work both with native COM as well as our XPCOM
1453 implementation.</para>
1454
1455 <sect2 id="pycom">
1456 <title>Python COM API</title>
1457
1458 <para>On Windows, Python scripts can use COM and VirtualBox interfaces
1459 to control almost all aspects of virtual machine execution. As an
1460 example, use the following commands to instantiate the VirtualBox
1461 object and start a VM: <screen>
1462 vbox = win32com.client.Dispatch("VirtualBox.VirtualBox")
1463 session = win32com.client.Dispatch("VirtualBox.Session")
1464 mach = vbox.findMachine("uuid or name of machine to start")
1465 progress = mach.launchVMProcess(session, "gui", "")
1466 progress.waitForCompletion(-1)
1467 </screen> Also, see
1468 <computeroutput>/bindings/glue/python/samples/vboxshell.py</computeroutput>
1469 for more advanced usage scenarious. However, unless you have specific
1470 requirements, we strongly recommend to use the generic glue layer
1471 described in the next section to access MS COM objects.</para>
1472 </sect2>
1473
1474 <sect2 id="glue-python">
1475 <title>Common Python bindings layer</title>
1476
1477 <para>As different wrappers ultimately provide access to the same
1478 underlying API, and to simplify porting and development of Python
1479 application using the VirtualBox Main API, we developed a common glue
1480 layer that abstracts out most platform-specific details from the
1481 application and allows the developer to focus on application logic.
1482 The VirtualBox installer automatically sets up this glue layer for the
1483 system default Python install. See below for details on how to set up
1484 the glue layer if you want to use a different Python
1485 installation.</para>
1486
1487 <para>In this layer, the class
1488 <computeroutput>VirtualBoxManager</computeroutput> hides most
1489 platform-specific details. It can be used to access both the local
1490 (COM) and the web service based API. The following code can be used by
1491 an application to use the glue layer.</para>
1492
1493 <screen># This code assumes vboxapi.py from VirtualBox distribution
1494# being in PYTHONPATH, or installed system-wide
1495from vboxapi import VirtualBoxManager
1496
1497# This code initializes VirtualBox manager with default style
1498# and parameters
1499virtualBoxManager = VirtualBoxManager(None, None)
1500
1501# Alternatively, one can be more verbose, and initialize
1502# glue with web service backend, and provide authentication
1503# information
1504virtualBoxManager = VirtualBoxManager("WEBSERVICE",
1505 {'url':'http://myhost.com::18083/',
1506 'user':'me',
1507 'password':'secret'}) </screen>
1508
1509 <para>We supply the <computeroutput>VirtualBoxManager</computeroutput>
1510 constructor with 2 arguments: style and parameters. Style defines
1511 which bindings style to use (could be "MSCOM", "XPCOM" or
1512 "WEBSERVICE"), and if set to <computeroutput>None</computeroutput>
1513 defaults to usable platform bindings (MS COM on Windows, XPCOM on
1514 other platforms). The second argument defines parameters, passed to
1515 the platform-specific module, as we do in the second example, where we
1516 pass username and password to be used to authenticate against the web
1517 service.</para>
1518
1519 <para>After obtaining the
1520 <computeroutput>VirtualBoxManager</computeroutput> instance, one can
1521 perform operations on the IVirtualBox class. For example, the
1522 following code will a start virtual machine by name or ID:</para>
1523
1524 <screen>from vboxapi import VirtualBoxManager
1525mgr = VirtualBoxManager(None, None)
1526vbox = mgr.vbox
1527name = "Linux"
1528mach = vbox.findMachine(name)
1529session = mgr.mgr.getSessionObject(vbox)
1530progress = mach.launchVMProcess(session, "gui", "")
1531progress.waitForCompletion(-1)
1532mgr.closeMachineSession(session)
1533 </screen>
1534 <para>
1535 Following code will print all registered machines and their log folders
1536 </para>
1537 <screen>from vboxapi import VirtualBoxManager
1538mgr = VirtualBoxManager(None, None)
1539vbox = mgr.vbox
1540
1541for m in mgr.getArray(vbox, 'machines'):
1542print "Machine '%s' logs in '%s'" %(m.name, m.logFolder)
1543 </screen>
1544
1545 <para>Code above demonstartes cross-platform access to array properties
1546 (certain limitations prevent one from using
1547 <computeroutput>vbox.machines</computeroutput> to access a list of
1548 available virtual machines in case of XPCOM), and a mechanism of
1549 uniform session creation and closing
1550 (<computeroutput>mgr.mgr.getSessionObject()</computeroutput>).</para>
1551
1552 <para>In case you want to use the glue layer with a different Python
1553 installation, use these steps in a shell to add the necessary
1554 files:</para>
1555
1556 <screen> # cd VBOX_INSTALL_PATH/sdk/installer
1557 # PYTHON vboxapisetup.py install</screen>
1558 </sect2>
1559
1560 <sect2 id="cppcom">
1561 <title>C++ COM API</title>
1562
1563 <para>C++ is the language that VirtualBox itself is written in, so C++
1564 is the most direct way to use the Main API -- but it is not
1565 necessarily the easiest, as using COM and XPCOM has its own set of
1566 complications.</para>
1567
1568 <para>VirtualBox ships with sample programs that demonstrate how to
1569 use the Main API to implement a number of tasks on your host platform.
1570 These samples can be found in the
1571 <computeroutput>/bindings/xpcom/samples</computeroutput> directory for
1572 Linux, Mac OS X and Solaris and
1573 <computeroutput>/bindings/mscom/samples</computeroutput> for Windows.
1574 The two samples are actually different, because the one for Windows
1575 uses native COM, whereas the other uses our XPCOM implementation, as
1576 described above.</para>
1577
1578 <para>Since COM and XPCOM are conceptually very similar but vary in
1579 the implementation details, we have created a "glue" layer that
1580 shields COM client code from these differences. All VirtualBox uses is
1581 this glue layer, so the same code written once works on both Windows
1582 hosts (with native COM) as well as on other hosts (with our XPCOM
1583 implementation). It is recommended to always use this glue code
1584 instead of using the COM and XPCOM APIs directly, as it is very easy
1585 to make your code completely independent from the platform it is
1586 running on.<!-- A third sample,
1587 <computeroutput>tstVBoxAPIGlue.cpp</computeroutput>, illustrates how to
1588 use the glue layer.
1589--></para>
1590
1591 <para>In order to encapsulate platform differences between Microsoft
1592 COM and XPCOM, the following items should be kept in mind when using
1593 the glue layer:</para>
1594
1595 <para><orderedlist>
1596 <listitem>
1597 <para><emphasis role="bold">Attribute getters and
1598 setters.</emphasis> COM has the notion of "attributes" in
1599 interfaces, which roughly compare to C++ member variables in
1600 classes. The difference is that for each attribute declared in
1601 an interface, COM automatically provides a "get" method to
1602 return the attribute's value. Unless the attribute has been
1603 marked as "readonly", a "set" attribute is also provided.</para>
1604
1605 <para>To illustrate, the IVirtualBox interface has a "version"
1606 attribute, which is read-only and of the "wstring" type (the
1607 standard string type in COM). As a result, you can call the
1608 "get" method for this attribute to retrieve the version number
1609 of VirtualBox.</para>
1610
1611 <para>Unfortunately, the implementation differs between COM and
1612 XPCOM. Microsoft COM names the "get" method like this:
1613 <computeroutput>get_Attribute()</computeroutput>, whereas XPCOM
1614 uses this syntax:
1615 <computeroutput>GetAttribute()</computeroutput> (and accordingly
1616 for "set" methods). To hide these differences, the VirtualBox
1617 glue code provides the
1618 <computeroutput>COMGETTER(attrib)</computeroutput> and
1619 <computeroutput>COMSETTER(attrib)</computeroutput> macros. So,
1620 <computeroutput>COMGETTER(version)()</computeroutput> (note, two
1621 pairs of brackets) expands to
1622 <computeroutput>get_Version()</computeroutput> on Windows and
1623 <computeroutput>GetVersion()</computeroutput> on other
1624 platforms.</para>
1625 </listitem>
1626
1627 <listitem>
1628 <para><emphasis role="bold">Unicode conversions.</emphasis>
1629 While the rest of the modern world has pretty much settled on
1630 encoding strings in UTF-8, COM, unfortunately, uses UCS-16
1631 encoding. This requires a lot of conversions, in particular
1632 between the VirtualBox Main API and the Qt GUI, which, like the
1633 rest of Qt, likes to use UTF-8.</para>
1634
1635 <para>To facilitate these conversions, VirtualBox provides the
1636 <computeroutput>com::Bstr</computeroutput> and
1637 <computeroutput>com::Utf8Str</computeroutput> classes, which
1638 support all kinds of conversions back and forth.</para>
1639 </listitem>
1640
1641 <listitem>
1642 <para><emphasis role="bold">COM autopointers.</emphasis>
1643 Possibly the greatest pain of using COM -- reference counting --
1644 is alleviated by the
1645 <computeroutput>ComPtr&lt;&gt;</computeroutput> template
1646 provided by the <computeroutput>ptr.h</computeroutput> file in
1647 the glue layer.</para>
1648 </listitem>
1649 </orderedlist></para>
1650 </sect2>
1651
1652 <sect2 id="event-queue">
1653 <title>Event queue processing</title>
1654
1655 <para>Both VirtualBox client programs and frontends should
1656 periodically perform processing of the main event queue, and do that
1657 on the application's main thread. In case of a typical GUI Windows/Mac
1658 OS application this happens automatically in the GUI's dispatch loop.
1659 However, for CLI only application, the appropriate actions have to be
1660 taken. For C++ applications, the VirtualBox SDK provided glue method
1661 <screen>
1662 int EventQueue::processEventQueue(uint32_t cMsTimeout)
1663 </screen> can be used for both blocking and non-blocking operations.
1664 For the Python bindings, a common layer provides the method <screen>
1665 VirtualBoxManager.waitForEvents(ms)
1666 </screen> with similar semantics.</para>
1667
1668 <para>Things get somewhat more complicated for situations where an
1669 application using VirtualBox cannot directly control the main event
1670 loop and the main event queue is separated from the event queue of the
1671 programming librarly (for example in case of Qt on Unix platforms). In
1672 such a case, the application developer is advised to use a
1673 platform/toolkit specific event injection mechanism to force event
1674 queue checks either based on periodical timer events delivered to the
1675 main thread, or by using custom platform messages to notify the main
1676 thread when events are available. See the VBoxSDL and Qt (VirtualBox)
1677 frontends as examples.</para>
1678 </sect2>
1679
1680 <sect2 id="vbcom">
1681 <title>Visual Basic and Visual Basic Script (VBS) on Windows
1682 hosts</title>
1683
1684 <para>On Windows hosts, one can control some of the VirtualBox Main
1685 API functionality from VBS scripts, and pretty much everything from
1686 Visual Basic programs.<footnote>
1687 <para>The difference results from the way VBS treats COM
1688 safearrays, which are used to keep lists in the Main API. VBS
1689 expects every array element to be a
1690 <computeroutput>VARIANT</computeroutput>, which is too strict a
1691 limitation for any high performance API. We may lift this
1692 restriction for interface APIs in a future version, or
1693 alternatively provide conversion APIs.</para>
1694 </footnote></para>
1695
1696 <para>VBS is scripting language available in any recent Windows
1697 environment. As an example, the following VBS code will print
1698 VirtualBox version: <screen>
1699 set vb = CreateObject("VirtualBox.VirtualBox")
1700 Wscript.Echo "VirtualBox version " &amp; vb.version
1701 </screen> See
1702 <computeroutput>bindings/mscom/vbs/sample/vboxinfo.vbs</computeroutput>
1703 for the complete sample.</para>
1704
1705 <para>Visual Basic is a popular high level language capable of
1706 accessing COM objects. The following VB code will iterate over all
1707 available virtual machines:<screen>
1708 Dim vb As VirtualBox.IVirtualBox
1709
1710 vb = CreateObject("VirtualBox.VirtualBox")
1711 machines = ""
1712 For Each m In vb.Machines
1713 m = m &amp; " " &amp; m.Name
1714 Next
1715 </screen> See
1716 <computeroutput>bindings/mscom/vb/sample/vboxinfo.vb</computeroutput>
1717 for the complete sample.</para>
1718 </sect2>
1719
1720 <sect2 id="cbinding">
1721 <title>C binding to XPCOM API</title>
1722
1723 <note>
1724 <para>This section currently applies to Linux hosts only.</para>
1725 </note>
1726
1727 <para>Starting with version 2.2, VirtualBox offers a C binding for the
1728 XPCOM API.</para>
1729
1730 <para>The C binding provides a layer enabling object creation, method
1731 invocation and attribute access from C.</para>
1732
1733 <sect3 id="c-gettingstarted">
1734 <title>Getting started</title>
1735
1736 <para>The following sections describe how to use the C binding in a
1737 C program.</para>
1738
1739 <para>For Linux, a sample program is provided which demonstrates use
1740 of the C binding to initialize XPCOM, get handles for VirtualBox and
1741 Session objects, make calls to list and start virtual machines, and
1742 uninitialize resources when done. The program uses the VBoxGlue
1743 library to open the C binding layer during runtime.</para>
1744
1745 <para>The sample program
1746 <computeroutput>tstXPCOMCGlue</computeroutput> is located in the bin
1747 directory and can be run without arguments. It lists registered
1748 machines on the host along with some additional information and ask
1749 for a machine to start. The source for this program is available in
1750 <computeroutput>sdk/bindings/xpcom/cbinding/samples/</computeroutput>
1751 directory. The source for the VBoxGlue library is available in the
1752 <computeroutput>sdk/bindings/xpcom/cbinding/</computeroutput>
1753 directory.</para>
1754 </sect3>
1755
1756 <sect3 id="c-initialization">
1757 <title>XPCOM initialization</title>
1758
1759 <para>Just like in C++, XPCOM needs to be initialized before it can
1760 be used. The <computeroutput>VBoxCAPI_v2_5.h</computeroutput> header
1761 provides the interface to the C binding. Here's how to initialize
1762 XPCOM:</para>
1763
1764 <screen>#include "VBoxCAPI_v2_5.h"
1765...
1766PCVBOXXPCOM g_pVBoxFuncs = NULL;
1767IVirtualBox *vbox = NULL;
1768ISession *session = NULL;
1769
1770/*
1771 * VBoxGetXPCOMCFunctions() is the only function exported by
1772 * VBoxXPCOMC.so and the only one needed to make virtualbox
1773 * work with C. This functions gives you the pointer to the
1774 * function table (g_pVBoxFuncs).
1775 *
1776 * Once you get the function table, then how and which functions
1777 * to use is explained below.
1778 *
1779 * g_pVBoxFuncs-&gt;pfnComInitialize does all the necessary startup
1780 * action and provides us with pointers to vbox and session handles.
1781 * It should be matched by a call to g_pVBoxFuncs-&gt;pfnComUninitialize()
1782 * when done.
1783 */
1784
1785g_pVBoxFuncs = VBoxGetXPCOMCFunctions(VBOX_XPCOMC_VERSION);
1786g_pVBoxFuncs-&gt;pfnComInitialize(&amp;vbox, &amp;session);</screen>
1787
1788 <para>If either <computeroutput>vbox</computeroutput> or
1789 <computeroutput>session</computeroutput> is still
1790 <computeroutput>NULL</computeroutput>, initialization failed and the
1791 XPCOM API cannot be used.</para>
1792 </sect3>
1793
1794 <sect3 id="c-invocation">
1795 <title>XPCOM method invocation</title>
1796
1797 <para>Method invocation is straightforward. It looks pretty much
1798 like the C++ way, augmented with an extra indirection due to
1799 accessing the vtable and passing a pointer to the object as the
1800 first argument to serve as the <computeroutput>this</computeroutput>
1801 pointer.</para>
1802
1803 <para>Using the C binding, all method invocations return a numeric
1804 result code.</para>
1805
1806 <para>If an interface is specified as returning an object, a pointer
1807 to a pointer to the appropriate object must be passed as the last
1808 argument. The method will then store an object pointer in that
1809 location.</para>
1810
1811 <para>In other words, to call an object's method what you need
1812 is</para>
1813
1814 <screen>IObject *object;
1815nsresult rc;
1816...
1817/*
1818 * Calling void IObject::method(arg, ...)
1819 */
1820rc = object-&gt;vtbl-&gt;Method(object, arg, ...);
1821
1822...
1823IFoo *foo;
1824/*
1825 * Calling IFoo IObject::method(arg, ...)
1826 */
1827rc = object-&gt;vtbl-&gt;Method(object, args, ..., &amp;foo);</screen>
1828
1829 <para>As a real-world example of a method invocation, let's call
1830 <xref linkend="IMachine__launchVMProcess"
1831 xreflabel="IMachine::launchVMProcess" /> which returns an
1832 IProgress object. Note again that the method name is
1833 capitalized.</para>
1834
1835 <screen>IProgress *progress;
1836...
1837rc = vbox-&gt;vtbl-&gt;LaunchVMProcess(
1838 machine, /* this */
1839 session, /* arg 1 */
1840 sessionType, /* arg 2 */
1841 env, /* arg 3 */
1842 &amp;progress /* Out */
1843);
1844</screen>
1845 </sect3>
1846
1847 <sect3 id="c-attributes">
1848 <title>XPCOM attribute access</title>
1849
1850 <para>A construct similar to calling non-void methods is used to
1851 access object attributes. For each attribute there exists a getter
1852 method, the name of which is composed of
1853 <computeroutput>Get</computeroutput> followed by the capitalized
1854 attribute name. Unless the attribute is read-only, an analogous
1855 <computeroutput>Set</computeroutput> method exists. Let's apply
1856 these rules to read the <xref linkend="IVirtualBox__revision"
1857 xreflabel="IVirtualBox::revision" /> attribute.</para>
1858
1859 <para>Using the <computeroutput>IVirtualBox</computeroutput> handle
1860 <computeroutput>vbox</computeroutput> obtained above, calling its
1861 <computeroutput>GetRevision</computeroutput> method looks like
1862 this:</para>
1863
1864 <screen>PRUint32 rev;
1865
1866rc = vbox-&gt;vtbl-&gt;GetRevision(vbox, &amp;rev);
1867if (NS_SUCCEEDED(rc))
1868{
1869 printf("Revision: %u\n", (unsigned)rev);
1870}
1871</screen>
1872
1873 <para>All objects with their methods and attributes are documented
1874 in <xref linkend="sdkref_classes" />.</para>
1875 </sect3>
1876
1877 <sect3 id="c-string-handling">
1878 <title>String handling</title>
1879
1880 <para>When dealing with strings you have to be aware of a string's
1881 encoding and ownership.</para>
1882
1883 <para>Internally, XPCOM uses UTF-16 encoded strings. A set of
1884 conversion functions is provided to convert other encodings to and
1885 from UTF-16. The type of a UTF-16 character is
1886 <computeroutput>PRUnichar</computeroutput>. Strings of UTF-16
1887 characters are arrays of that type. Most string handling functions
1888 take pointers to that type. Prototypes for the following conversion
1889 functions are declared in
1890 <computeroutput>VBoxCAPI_v2_5.h</computeroutput>.</para>
1891
1892 <sect4>
1893 <title>Conversion of UTF-16 to and from UTF-8</title>
1894
1895 <screen>int (*pfnUtf16ToUtf8)(const PRUnichar *pwszString, char **ppszString);
1896int (*pfnUtf8ToUtf16)(const char *pszString, PRUnichar **ppwszString);
1897</screen>
1898 </sect4>
1899
1900 <sect4>
1901 <title>Ownership</title>
1902
1903 <para>The ownership of a string determines who is responsible for
1904 releasing resources associated with the string. Whenever XPCOM
1905 creates a string, ownership is transferred to the caller. To avoid
1906 resource leaks, the caller should release resources once the
1907 string is no longer needed.</para>
1908 </sect4>
1909 </sect3>
1910
1911 <sect3 id="c-uninitialization">
1912 <title>XPCOM uninitialization</title>
1913
1914 <para>Uninitialization is performed by
1915 <computeroutput>g_pVBoxFuncs-&gt;pfnComUninitialize().</computeroutput>
1916 If your program can exit from more than one place, it is a good idea
1917 to install this function as an exit handler with Standard C's
1918 <computeroutput>atexit()</computeroutput> just after calling
1919 <computeroutput>g_pVBoxFuncs-&gt;pfnComInitialize()</computeroutput>
1920 , e.g. <screen>#include &lt;stdlib.h&gt;
1921#include &lt;stdio.h&gt;
1922
1923...
1924
1925/*
1926 * Make sure g_pVBoxFuncs-&gt;pfnComUninitialize() is called at exit, no
1927 * matter if we return from the initial call to main or call exit()
1928 * somewhere else. Note that atexit registered functions are not
1929 * called upon abnormal termination, i.e. when calling abort() or
1930 * signal(). Separate provisions must be taken for these cases.
1931 */
1932
1933if (atexit(g_pVBoxFuncs-&gt;pfnComUninitialize()) != 0) {
1934 fprintf(stderr, "failed to register g_pVBoxFuncs-&gt;pfnComUninitialize()\n");
1935 exit(EXIT_FAILURE);
1936}
1937</screen></para>
1938
1939 <para>Another idea would be to write your own <computeroutput>void
1940 myexit(int status)</computeroutput> function, calling
1941 <computeroutput>g_pVBoxFuncs-&gt;pfnComUninitialize()</computeroutput>
1942 followed by the real <computeroutput>exit()</computeroutput>, and
1943 use it instead of <computeroutput>exit()</computeroutput> throughout
1944 your program and at the end of
1945 <computeroutput>main.</computeroutput></para>
1946
1947 <para>If you expect the program to be terminated by a signal (e.g.
1948 user types CTRL-C sending SIGINT) you might want to install a signal
1949 handler setting a flag noting that a signal was sent and then
1950 calling
1951 <computeroutput>g_pVBoxFuncs-&gt;pfnComUninitialize()</computeroutput>
1952 later on (usually <emphasis>not</emphasis> from the handler itself
1953 .)</para>
1954
1955 <para>That said, if a client program forgets to call
1956 <computeroutput>g_pVBoxFuncs-&gt;pfnComUninitialize()</computeroutput>
1957 before it terminates, there is a mechanism in place which will
1958 eventually release references held by the client. You should not
1959 rely on this, however.</para>
1960 </sect3>
1961
1962 <sect3 id="c-linking">
1963 <title>Compiling and linking</title>
1964
1965 <para>A program using the C binding has to open the library during
1966 runtime using the help of glue code provided and as shown in the
1967 example <computeroutput>tstXPCOMCGlue.c</computeroutput>.
1968 Compilation and linking can be achieved, e.g., with a makefile
1969 fragment similar to</para>
1970
1971 <screen># Where is the XPCOM include directory?
1972INCS_XPCOM = -I../../include
1973# Where is the glue code directory?
1974GLUE_DIR = ..
1975GLUE_INC = -I..
1976
1977#Compile Glue Library
1978VBoxXPCOMCGlue.o: $(GLUE_DIR)/VBoxXPCOMCGlue.c
1979 $(CC) $(CFLAGS) $(INCS_XPCOM) $(GLUE_INC) -o $@ -c $&lt;
1980
1981# Compile.
1982program.o: program.c VBoxCAPI_v2_5.h
1983 $(CC) $(CFLAGS) $(INCS_XPCOM) $(GLUE_INC) -o $@ -c $&lt;
1984
1985# Link.
1986program: program.o VBoxXPCOMCGlue.o
1987 $(CC) -o $@ $^ -ldl</screen>
1988 </sect3>
1989 </sect2>
1990 </sect1>
1991 </chapter>
1992
1993 <chapter id="concepts">
1994 <title>Basic VirtualBox concepts; some examples</title>
1995
1996 <para>The following explains some basic VirtualBox concepts such as the
1997 VirtualBox object, sessions and how virtual machines are manipulated and
1998 launched using the Main API. The coding examples use a pseudo-code style
1999 closely related to the object-oriented web service (OOWS) for JAX-WS.
2000 Depending on which environment you are using, you will need to adjust the
2001 examples.</para>
2002
2003 <sect1>
2004 <title>Obtaining basic machine information. Reading attributes</title>
2005
2006 <para>Any program using the Main API will first need access to the
2007 global VirtualBox object (see <xref linkend="IVirtualBox"
2008 xreflabel="IVirtualBox" />), from which all other functionality of the
2009 API is derived. With the OOWS for JAX-WS, this is returned from the
2010 <xref linkend="IWebsessionManager__logon"
2011 xreflabel="IWebsessionManager::logon()" /> call.</para>
2012
2013 <para>To enumerate virtual machines, one would look at the "machines"
2014 array attribute in the VirtualBox object (see <xref
2015 linkend="IVirtualBox__machines" xreflabel="IVirtualBox::machines" />).
2016 This array contains all virtual machines currently registered with the
2017 host, each of them being an instance of <xref linkend="IMachine"
2018 xreflabel="IMachine" />. From each such instance, one can query
2019 additional information, such as the UUID, the name, memory, operating
2020 system and more by looking at the attributes; see the attributes list in
2021 <xref linkend="IMachine" xreflabel="IMachine documentation" />.</para>
2022
2023 <para>As mentioned in the preceding chapters, depending on your
2024 programming environment, attributes are mapped to corresponding "get"
2025 and (if the attribute is not read-only) "set" methods. So when the
2026 documentation says that IMachine has a "<xref linkend="IMachine__name"
2027 xreflabel="name" />" attribute, this means you need to code something
2028 like the following to get the machine's name:<screen>IMachine machine = ...;
2029String name = machine.getName();</screen>Boolean attribute getters can
2030 sometimes be called <computeroutput>isAttribute()</computeroutput> due
2031 to JAX-WS naming conventions.</para>
2032 </sect1>
2033
2034 <sect1>
2035 <title>Changing machine settings. Sessions</title>
2036
2037 <para>As said in the previous section, to read a machine's attribute,
2038 one invokes the corresponding "get" method. One would think that to
2039 change settings of a machine, it would suffice to call the corresponding
2040 "set" method -- for example, to set a VM's memory to 1024 MB, one would
2041 call <computeroutput>setMemorySize(1024)</computeroutput>. Try that, and
2042 you will get an error: "The machine is not mutable."</para>
2043
2044 <para>So unfortunately, things are not that easy. VirtualBox is a
2045 complicated environment in which multiple processes compete for possibly
2046 the same resources, especially machine settings. As a result, machines
2047 must be "locked" before they can either be modified or started. This is
2048 to prevent multiple processes from making conflicting changes to a
2049 machine: it should, for example, not be allowed to change the memory
2050 size of a virtual machine while it is running. (You can't add more
2051 memory to a real computer while it is running either, at least not to an
2052 ordinary PC.) Also, two processes must not change settings at the same
2053 time, or start a machine at the same time.</para>
2054
2055 <para>These requirements are implemented in the Main API by way of
2056 "sessions", in particular, the <xref linkend="ISession"
2057 xreflabel="ISession" /> interface. Each process which talks to
2058 VirtualBox needs its own instance of ISession. In the web service, you
2059 cannot create such an object, but
2060 <computeroutput>vboxwebsrv</computeroutput> creates one for you when you
2061 log on, which you can obtain by calling <xref
2062 linkend="IWebsessionManager__getSessionObject"
2063 xreflabel="IWebsessionManager::getSessionObject()" />.</para>
2064
2065 <para>This session object must then be used like a mutex semaphore in
2066 common programming environments. Before you can change machine settings,
2067 you must write-lock the machine by calling <xref
2068 linkend="IMachine__lockMachine" xreflabel="IMachine::lockMachine()" />
2069 with your process's session object.</para>
2070
2071 <para>After the machine has been locked, the <xref
2072 linkend="ISession__machine" xreflabel="ISession::machine" /> attribute
2073 contains a copy of the original IMachine object upon which the session
2074 was opened, but this copy is "mutable": you can invoke "set" methods on
2075 it.</para>
2076
2077 <para>When done making the changes to the machine, you must call <xref
2078 linkend="IMachine__saveSettings"
2079 xreflabel="IMachine::saveSettings()" />, which will copy the changes you
2080 have made from your "mutable" machine back to the real machine and write
2081 them out to the machine settings XML file. This will make your changes
2082 permanent.</para>
2083
2084 <para>Finally, it is important to always unlock the machine again, by
2085 calling <xref linkend="ISession__unlockMachine"
2086 xreflabel="ISession::unlockMachine()" />. Otherwise, when the calling
2087 process end, the machine will receive the "aborted" state, which can
2088 lead to loss of data.</para>
2089
2090 <para>So, as an example, the sequence to change a machine's memory to
2091 1024 MB is something like this:<screen>IWebsessionManager mgr ...;
2092IVirtualBox vbox = mgr.logon(user, pass);
2093...
2094IMachine machine = ...; // read-only machine
2095ISession session = mgr.getSessionObject();
2096machine.lockMachine(session, LockType.Write); // machine is now locked for writing
2097IMachine mutable = session.getMachine(); // obtain the mutable machine copy
2098mutable.setMemorySize(1024);
2099mutable.saveSettings(); // write settings to XML
2100session.unlockMachine();</screen></para>
2101 </sect1>
2102
2103 <sect1>
2104 <title>Launching virtual machines</title>
2105
2106 <para>To launch a virtual machine, you call <xref
2107 linkend="IMachine__launchVMProcess"
2108 xreflabel="IMachine::launchVMProcess()" />. In doing so, the caller
2109 instructs the VirtualBox engine to start a new process with the virtual
2110 machine in it, since to the host, each virtual machine looks like a
2111 single process, even if it has hundreds of its own processes inside.
2112 (This new VM process in turn obtains a write lock on the machine, as
2113 described above, to prevent conflicting changes from other processes;
2114 this is why opening another session will fail while the VM is
2115 running.)</para>
2116
2117 <para>Starting a machine looks something like this:<screen>IWebsessionManager mgr ...;
2118IVirtualBox vbox = mgr.logon(user, pass);
2119...
2120IMachine machine = ...; // read-only machine
2121ISession session = mgr.getSessionObject();
2122IProgress prog = machine.launchVMProcess(session,
2123 "gui", // session type
2124 ""); // possibly environment setting
2125prog.waitForCompletion(10000); // give the process 10 secs
2126if (prog.getResultCode() != 0) // check success
2127 System.out.println("Cannot launch VM!")</screen></para>
2128
2129 <para>The caller's session object can then be used as a sort of remote
2130 control to the VM process that was launched. It contains a "console"
2131 object (see <xref linkend="ISession__console"
2132 xreflabel="ISession::console" />) with which the VM can be paused,
2133 stopped, snapshotted or other things.</para>
2134 </sect1>
2135
2136 <sect1>
2137 <title>VirtualBox events</title>
2138
2139 <para>In VirtualBox, "events" provide a uniform mechanism to register
2140 for and consume specific events. A VirtualBox client can register an
2141 "event listener" (represented by the <xref linkend="IEventListener"
2142 xreflabel="IEventListener" /> interface), which will then get notified
2143 by the server when an event (represented by the <xref linkend="IEvent"
2144 xreflabel="IEvent" /> interface) happens.</para>
2145
2146 <para>The IEvent interface is an abstract parent interface for all
2147 events that can occur in VirtualBox. The actual events that the server
2148 sends out are then of one of the specific subclasses, for example <xref
2149 linkend="IMachineStateChangedEvent"
2150 xreflabel="IMachineStateChangedEvent" /> or <xref
2151 linkend="IMediumChangedEvent" xreflabel="IMediumChangedEvent" />.</para>
2152
2153 <para>As an example, the VirtualBox GUI waits for machine events and can
2154 thus update its display when the machine state changes or machine
2155 settings are modified, even if this happens in another client. This is
2156 how the GUI can automatically refresh its display even if you manipulate
2157 a machine from another client, for example, from VBoxManage.</para>
2158
2159 <para>To register an event listener to listen to events, use code like
2160 this:<screen>EventSource es = console.getEventSource();
2161IEventListener listener = es.createListener();
2162VBoxEventType aTypes[] = (VBoxEventType.OnMachineStateChanged);
2163 // list of event types to listen for
2164es.registerListener(listener, aTypes, false /* active */);
2165 // register passive listener
2166IEvent ev = es.getEvent(listener, 1000);
2167 // wait up to one second for event to happen
2168if (ev != null)
2169{
2170 // downcast to specific event interface (in this case we have only registered
2171 // for one type, otherwise IEvent::type would tell us)
2172 IMachineStateChangedEvent mcse = IMachineStateChangedEvent.queryInterface(ev);
2173 ... // inspect and do something
2174 es.eventProcessed(listener, ev);
2175}
2176...
2177es.unregisterListener(listener); </screen></para>
2178
2179 <para>A graphical user interface would probably best start its own
2180 thread to wait for events and then process these in a loop.</para>
2181
2182 <para>The events mechanism was introduced with VirtualBox 3.3 and
2183 replaces various callback interfaces which were called for each event in
2184 the interface. The callback mechanism was not compatible with scripting
2185 languages, local Java bindings and remote web services as they do not
2186 support callbacks. The new mechanism with events and event listeners
2187 works with all of these.</para>
2188
2189 <para>To simplify developement of application using events, concept of
2190 event aggregator was introduced. Essentially it's mechanism to aggregate
2191 multiple event sources into single one, and then work with this single
2192 aggregated event source instead of original sources. As an example, one
2193 can evaluate demo recorder in VirtualBox Python shell, shipped with SDK
2194 - it records mouse and keyboard events, represented as separate event
2195 sources. Code is essentially like this:<screen>
2196 listener = console.eventSource.createListener()
2197 agg = console.eventSource.createAggregator([console.keyboard.eventSource, console.mouse.eventSource])
2198 agg.registerListener(listener, [ctx['global'].constants.VBoxEventType_Any], False)
2199 registered = True
2200 end = time.time() + dur
2201 while time.time() &lt; end:
2202 ev = agg.getEvent(listener, 1000)
2203 processEent(ev)
2204 agg.unregisterListener(listener)</screen> Without using aggregators
2205 consumer have to poll on both sources, or start multiple threads to
2206 block on those sources.</para>
2207 </sect1>
2208 </chapter>
2209
2210 <chapter id="vboxshell">
2211 <title>The VirtualBox shell</title>
2212
2213 <para>VirtualBox comes with an extensible shell, which allows you to
2214 control your virtual machines from the command line. It is also a
2215 nontrivial example of how to use the VirtualBox APIs from Python, for all
2216 three COM/XPCOM/WS styles of the API.</para>
2217
2218 <para>You can easily extend this shell with your own commands. Create a
2219 subdirectory named <computeroutput>.VirtualBox/shexts</computeroutput>
2220 below your home directory and put a Python file implementing your shell
2221 extension commands in this directory. This file must contain an array
2222 named <computeroutput>commands</computeroutput> containing your command
2223 definitions: <screen>
2224 commands = {
2225 'cmd1': ['Command cmd1 help', cmd1],
2226 'cmd2': ['Command cmd2 help', cmd2]
2227 }
2228 </screen> For example, to create a command for creating hard drive
2229 images, the following code can be used: <screen>
2230 def createHdd(ctx,args):
2231 # Show some meaningful error message on wrong input
2232 if (len(args) &lt; 3):
2233 print "usage: createHdd sizeM location type"
2234 return 0
2235
2236 # Get arguments
2237 size = int(args[1])
2238 loc = args[2]
2239 if len(args) &gt; 3:
2240 format = args[3]
2241 else:
2242 # And provide some meaningful defaults
2243 format = "vdi"
2244
2245 # Call VirtualBox API, using context's fields
2246 hdd = ctx['vb'].createHardDisk(format, loc)
2247 # Access constants using ctx['global'].constants
2248 progress = hdd.createBaseStorage(size, ctx['global'].constants.HardDiskVariant_Standard)
2249 # use standard progress bar mechanism
2250 ctx['progressBar'](progress)
2251
2252
2253 # Report errors
2254 if not hdd.id:
2255 print "cannot create disk (file %s exist?)" %(loc)
2256 return 0
2257
2258 # Give user some feedback on success too
2259 print "created HDD with id: %s" %(hdd.id)
2260
2261 # 0 means continue execution, other values mean exit from the interpreter
2262 return 0
2263
2264 commands = {
2265 'myCreateHDD': ['Create virtual HDD, createHdd size location type', createHdd]
2266 }
2267 </screen> Just store the above text in the file
2268 <computeroutput>createHdd</computeroutput> (or any other meaningful name)
2269 in <computeroutput>.VirtualBox/shexts/</computeroutput>. Start the
2270 VirtualBox shell, or just issue the
2271 <computeroutput>reloadExts</computeroutput> command, if the shell is
2272 already running. Your new command will now be available.</para>
2273 </chapter>
2274
2275 <xi:include href="SDKRef_apiref.xml" xpointer="xpointer(/book/*)"
2276 xmlns:xi="http://www.w3.org/2001/XInclude" />
2277
2278 <chapter id="hgcm">
2279 <title>Host-Guest Communication Manager</title>
2280
2281 <para>The VirtualBox Host-Guest Communication Manager (HGCM) allows a
2282 guest application or a guest driver to call a host shared library. The
2283 following features of VirtualBox are implemented using HGCM: <itemizedlist>
2284 <listitem>
2285 <para>Shared Folders</para>
2286 </listitem>
2287
2288 <listitem>
2289 <para>Shared Clipboard</para>
2290 </listitem>
2291
2292 <listitem>
2293 <para>Guest configuration interface</para>
2294 </listitem>
2295 </itemizedlist></para>
2296
2297 <para>The shared library contains a so called HGCM service. The guest HGCM
2298 clients establish connections to the service to call it. When calling a
2299 HGCM service the client supplies a function code and a number of
2300 parameters for the function.</para>
2301
2302 <sect1>
2303 <title>Virtual hardware implementation</title>
2304
2305 <para>HGCM uses the VMM virtual PCI device to exchange data between the
2306 guest and the host. The guest always acts as an initiator of requests. A
2307 request is constructed in the guest physical memory, which must be
2308 locked by the guest. The physical address is passed to the VMM device
2309 using a 32 bit <computeroutput>out edx, eax</computeroutput>
2310 instruction. The physical memory must be allocated below 4GB by 64 bit
2311 guests.</para>
2312
2313 <para>The host parses the request header and data and queues the request
2314 for a host HGCM service. The guest continues execution and usually waits
2315 on a HGCM event semaphore.</para>
2316
2317 <para>When the request has been processed by the HGCM service, the VMM
2318 device sets the completion flag in the request header, sets the HGCM
2319 event and raises an IRQ for the guest. The IRQ handler signals the HGCM
2320 event semaphore and all HGCM callers check the completion flag in the
2321 corresponding request header. If the flag is set, the request is
2322 considered completed.</para>
2323 </sect1>
2324
2325 <sect1>
2326 <title>Protocol specification</title>
2327
2328 <para>The HGCM protocol definitions are contained in the
2329 <computeroutput>VBox/VBoxGuest.h</computeroutput></para>
2330
2331 <sect2>
2332 <title>Request header</title>
2333
2334 <para>HGCM request structures contains a generic header
2335 (VMMDevHGCMRequestHeader): <table>
2336 <title>HGCM Request Generic Header</title>
2337
2338 <tgroup cols="2">
2339 <tbody>
2340 <row>
2341 <entry><emphasis role="bold">Name</emphasis></entry>
2342
2343 <entry><emphasis role="bold">Description</emphasis></entry>
2344 </row>
2345
2346 <row>
2347 <entry>size</entry>
2348
2349 <entry>Size of the entire request.</entry>
2350 </row>
2351
2352 <row>
2353 <entry>version</entry>
2354
2355 <entry>Version of the header, must be set to
2356 <computeroutput>0x10001</computeroutput>.</entry>
2357 </row>
2358
2359 <row>
2360 <entry>type</entry>
2361
2362 <entry>Type of the request.</entry>
2363 </row>
2364
2365 <row>
2366 <entry>rc</entry>
2367
2368 <entry>HGCM return code, which will be set by the VMM
2369 device.</entry>
2370 </row>
2371
2372 <row>
2373 <entry>reserved1</entry>
2374
2375 <entry>A reserved field 1.</entry>
2376 </row>
2377
2378 <row>
2379 <entry>reserved2</entry>
2380
2381 <entry>A reserved field 2.</entry>
2382 </row>
2383
2384 <row>
2385 <entry>flags</entry>
2386
2387 <entry>HGCM flags, set by the VMM device.</entry>
2388 </row>
2389
2390 <row>
2391 <entry>result</entry>
2392
2393 <entry>The HGCM result code, set by the VMM device.</entry>
2394 </row>
2395 </tbody>
2396 </tgroup>
2397 </table> <note>
2398 <itemizedlist>
2399 <listitem>
2400 <para>All fields are 32 bit.</para>
2401 </listitem>
2402
2403 <listitem>
2404 <para>Fields from <computeroutput>size</computeroutput> to
2405 <computeroutput>reserved2</computeroutput> are a standard VMM
2406 device request header, which is used for other interfaces as
2407 well.</para>
2408 </listitem>
2409 </itemizedlist>
2410 </note></para>
2411
2412 <para>The <emphasis role="bold">type</emphasis> field indicates the
2413 type of the HGCM request: <table>
2414 <title>Request Types</title>
2415
2416 <tgroup cols="2">
2417 <tbody>
2418 <row>
2419 <entry><emphasis role="bold">Name (decimal
2420 value)</emphasis></entry>
2421
2422 <entry><emphasis role="bold">Description</emphasis></entry>
2423 </row>
2424
2425 <row>
2426 <entry>VMMDevReq_HGCMConnect
2427 (<computeroutput>60</computeroutput>)</entry>
2428
2429 <entry>Connect to a HGCM service.</entry>
2430 </row>
2431
2432 <row>
2433 <entry>VMMDevReq_HGCMDisconnect
2434 (<computeroutput>61</computeroutput>)</entry>
2435
2436 <entry>Disconnect from the service.</entry>
2437 </row>
2438
2439 <row>
2440 <entry>VMMDevReq_HGCMCall32
2441 (<computeroutput>62</computeroutput>)</entry>
2442
2443 <entry>Call a HGCM function using the 32 bit
2444 interface.</entry>
2445 </row>
2446
2447 <row>
2448 <entry>VMMDevReq_HGCMCall64
2449 (<computeroutput>63</computeroutput>)</entry>
2450
2451 <entry>Call a HGCM function using the 64 bit
2452 interface.</entry>
2453 </row>
2454
2455 <row>
2456 <entry>VMMDevReq_HGCMCancel
2457 (<computeroutput>64</computeroutput>)</entry>
2458
2459 <entry>Cancel a HGCM request currently being processed by a
2460 host HGCM service.</entry>
2461 </row>
2462 </tbody>
2463 </tgroup>
2464 </table></para>
2465
2466 <para>The <emphasis role="bold">flags</emphasis> field may contain:
2467 <table>
2468 <title>Flags</title>
2469
2470 <tgroup cols="2">
2471 <tbody>
2472 <row>
2473 <entry><emphasis role="bold">Name (hexadecimal
2474 value)</emphasis></entry>
2475
2476 <entry><emphasis role="bold">Description</emphasis></entry>
2477 </row>
2478
2479 <row>
2480 <entry>VBOX_HGCM_REQ_DONE
2481 (<computeroutput>0x00000001</computeroutput>)</entry>
2482
2483 <entry>The request has been processed by the host
2484 service.</entry>
2485 </row>
2486
2487 <row>
2488 <entry>VBOX_HGCM_REQ_CANCELLED
2489 (<computeroutput>0x00000002</computeroutput>)</entry>
2490
2491 <entry>This request was cancelled.</entry>
2492 </row>
2493 </tbody>
2494 </tgroup>
2495 </table></para>
2496 </sect2>
2497
2498 <sect2>
2499 <title>Connect</title>
2500
2501 <para>The connection request must be issued by the guest HGCM client
2502 before it can call the HGCM service (VMMDevHGCMConnect): <table>
2503 <title>Connect request</title>
2504
2505 <tgroup cols="2">
2506 <tbody>
2507 <row>
2508 <entry><emphasis role="bold">Name</emphasis></entry>
2509
2510 <entry><emphasis role="bold">Description</emphasis></entry>
2511 </row>
2512
2513 <row>
2514 <entry>header</entry>
2515
2516 <entry>The generic HGCM request header with type equal to
2517 VMMDevReq_HGCMConnect
2518 (<computeroutput>60</computeroutput>).</entry>
2519 </row>
2520
2521 <row>
2522 <entry>type</entry>
2523
2524 <entry>The type of the service location information (32
2525 bit).</entry>
2526 </row>
2527
2528 <row>
2529 <entry>location</entry>
2530
2531 <entry>The service location information (128 bytes).</entry>
2532 </row>
2533
2534 <row>
2535 <entry>clientId</entry>
2536
2537 <entry>The client identifier assigned to the connecting
2538 client by the HGCM subsystem (32 bit).</entry>
2539 </row>
2540 </tbody>
2541 </tgroup>
2542 </table> The <emphasis role="bold">type</emphasis> field tells the
2543 HGCM how to look for the requested service: <table>
2544 <title>Location Information Types</title>
2545
2546 <tgroup cols="2">
2547 <tbody>
2548 <row>
2549 <entry><emphasis role="bold">Name (hexadecimal
2550 value)</emphasis></entry>
2551
2552 <entry><emphasis role="bold">Description</emphasis></entry>
2553 </row>
2554
2555 <row>
2556 <entry>VMMDevHGCMLoc_LocalHost
2557 (<computeroutput>0x1</computeroutput>)</entry>
2558
2559 <entry>The requested service is a shared library located on
2560 the host and the location information contains the library
2561 name.</entry>
2562 </row>
2563
2564 <row>
2565 <entry>VMMDevHGCMLoc_LocalHost_Existing
2566 (<computeroutput>0x2</computeroutput>)</entry>
2567
2568 <entry>The requested service is a preloaded one and the
2569 location information contains the service name.</entry>
2570 </row>
2571 </tbody>
2572 </tgroup>
2573 </table> <note>
2574 <para>Currently preloaded HGCM services are hard-coded in
2575 VirtualBox: <itemizedlist>
2576 <listitem>
2577 <para>VBoxSharedFolders</para>
2578 </listitem>
2579
2580 <listitem>
2581 <para>VBoxSharedClipboard</para>
2582 </listitem>
2583
2584 <listitem>
2585 <para>VBoxGuestPropSvc</para>
2586 </listitem>
2587
2588 <listitem>
2589 <para>VBoxSharedOpenGL</para>
2590 </listitem>
2591 </itemizedlist></para>
2592 </note> There is no difference between both types of HGCM services,
2593 only the location mechanism is different.</para>
2594
2595 <para>The client identifier is returned by the host and must be used
2596 in all subsequent requests by the client.</para>
2597 </sect2>
2598
2599 <sect2>
2600 <title>Disconnect</title>
2601
2602 <para>This request disconnects the client and makes the client
2603 identifier invalid (VMMDevHGCMDisconnect): <table>
2604 <title>Disconnect request</title>
2605
2606 <tgroup cols="2">
2607 <tbody>
2608 <row>
2609 <entry><emphasis role="bold">Name</emphasis></entry>
2610
2611 <entry><emphasis role="bold">Description</emphasis></entry>
2612 </row>
2613
2614 <row>
2615 <entry>header</entry>
2616
2617 <entry>The generic HGCM request header with type equal to
2618 VMMDevReq_HGCMDisconnect
2619 (<computeroutput>61</computeroutput>).</entry>
2620 </row>
2621
2622 <row>
2623 <entry>clientId</entry>
2624
2625 <entry>The client identifier previously returned by the
2626 connect request (32 bit).</entry>
2627 </row>
2628 </tbody>
2629 </tgroup>
2630 </table></para>
2631 </sect2>
2632
2633 <sect2>
2634 <title>Call32 and Call64</title>
2635
2636 <para>Calls the HGCM service entry point (VMMDevHGCMCall) using 32 bit
2637 or 64 bit addresses: <table>
2638 <title>Call request</title>
2639
2640 <tgroup cols="2">
2641 <tbody>
2642 <row>
2643 <entry><emphasis role="bold">Name</emphasis></entry>
2644
2645 <entry><emphasis role="bold">Description</emphasis></entry>
2646 </row>
2647
2648 <row>
2649 <entry>header</entry>
2650
2651 <entry>The generic HGCM request header with type equal to
2652 either VMMDevReq_HGCMCall32
2653 (<computeroutput>62</computeroutput>) or
2654 VMMDevReq_HGCMCall64
2655 (<computeroutput>63</computeroutput>).</entry>
2656 </row>
2657
2658 <row>
2659 <entry>clientId</entry>
2660
2661 <entry>The client identifier previously returned by the
2662 connect request (32 bit).</entry>
2663 </row>
2664
2665 <row>
2666 <entry>function</entry>
2667
2668 <entry>The function code to be processed by the service (32
2669 bit).</entry>
2670 </row>
2671
2672 <row>
2673 <entry>cParms</entry>
2674
2675 <entry>The number of following parameters (32 bit). This
2676 value is 0 if the function requires no parameters.</entry>
2677 </row>
2678
2679 <row>
2680 <entry>parms</entry>
2681
2682 <entry>An array of parameter description structures
2683 (HGCMFunctionParameter32 or
2684 HGCMFunctionParameter64).</entry>
2685 </row>
2686 </tbody>
2687 </tgroup>
2688 </table></para>
2689
2690 <para>The 32 bit parameter description (HGCMFunctionParameter32)
2691 consists of 32 bit type field and 8 bytes of an opaque value, so 12
2692 bytes in total. The 64 bit variant (HGCMFunctionParameter64) consists
2693 of the type and 12 bytes of a value, so 16 bytes in total.</para>
2694
2695 <para><table>
2696 <title>Parameter types</title>
2697
2698 <tgroup cols="2">
2699 <tbody>
2700 <row>
2701 <entry><emphasis role="bold">Type</emphasis></entry>
2702
2703 <entry><emphasis role="bold">Format of the
2704 value</emphasis></entry>
2705 </row>
2706
2707 <row>
2708 <entry>VMMDevHGCMParmType_32bit (1)</entry>
2709
2710 <entry>A 32 bit value.</entry>
2711 </row>
2712
2713 <row>
2714 <entry>VMMDevHGCMParmType_64bit (2)</entry>
2715
2716 <entry>A 64 bit value.</entry>
2717 </row>
2718
2719 <row>
2720 <entry>VMMDevHGCMParmType_PhysAddr (3)</entry>
2721
2722 <entry>A 32 bit size followed by a 32 bit or 64 bit guest
2723 physical address.</entry>
2724 </row>
2725
2726 <row>
2727 <entry>VMMDevHGCMParmType_LinAddr (4)</entry>
2728
2729 <entry>A 32 bit size followed by a 32 bit or 64 bit guest
2730 linear address. The buffer is used both for guest to host
2731 and for host to guest data.</entry>
2732 </row>
2733
2734 <row>
2735 <entry>VMMDevHGCMParmType_LinAddr_In (5)</entry>
2736
2737 <entry>Same as VMMDevHGCMParmType_LinAddr but the buffer is
2738 used only for host to guest data.</entry>
2739 </row>
2740
2741 <row>
2742 <entry>VMMDevHGCMParmType_LinAddr_Out (6)</entry>
2743
2744 <entry>Same as VMMDevHGCMParmType_LinAddr but the buffer is
2745 used only for guest to host data.</entry>
2746 </row>
2747
2748 <row>
2749 <entry>VMMDevHGCMParmType_LinAddr_Locked (7)</entry>
2750
2751 <entry>Same as VMMDevHGCMParmType_LinAddr but the buffer is
2752 already locked by the guest.</entry>
2753 </row>
2754
2755 <row>
2756 <entry>VMMDevHGCMParmType_LinAddr_Locked_In (1)</entry>
2757
2758 <entry>Same as VMMDevHGCMParmType_LinAddr_In but the buffer
2759 is already locked by the guest.</entry>
2760 </row>
2761
2762 <row>
2763 <entry>VMMDevHGCMParmType_LinAddr_Locked_Out (1)</entry>
2764
2765 <entry>Same as VMMDevHGCMParmType_LinAddr_Out but the buffer
2766 is already locked by the guest.</entry>
2767 </row>
2768 </tbody>
2769 </tgroup>
2770 </table></para>
2771
2772 <para>The</para>
2773 </sect2>
2774
2775 <sect2>
2776 <title>Cancel</title>
2777
2778 <para>This request cancels a call request (VMMDevHGCMCancel): <table>
2779 <title>Cancel request</title>
2780
2781 <tgroup cols="2">
2782 <tbody>
2783 <row>
2784 <entry><emphasis role="bold">Name</emphasis></entry>
2785
2786 <entry><emphasis role="bold">Description</emphasis></entry>
2787 </row>
2788
2789 <row>
2790 <entry>header</entry>
2791
2792 <entry>The generic HGCM request header with type equal to
2793 VMMDevReq_HGCMCancel
2794 (<computeroutput>64</computeroutput>).</entry>
2795 </row>
2796 </tbody>
2797 </tgroup>
2798 </table></para>
2799 </sect2>
2800 </sect1>
2801
2802 <sect1>
2803 <title>Guest software interface</title>
2804
2805 <para>The guest HGCM clients can call HGCM services from both drivers
2806 and applications.</para>
2807
2808 <sect2>
2809 <title>The guest driver interface</title>
2810
2811 <para>The driver interface is implemented in the VirtualBox guest
2812 additions driver (VBoxGuest), which works with the VMM virtual device.
2813 Drivers must use the VBox Guest Library (VBGL), which provides an API
2814 for HGCM clients (<computeroutput>VBox/VBoxGuestLib.h</computeroutput>
2815 and <computeroutput>VBox/VBoxGuest.h</computeroutput>).</para>
2816
2817 <para><screen>
2818DECLVBGL(int) VbglHGCMConnect (VBGLHGCMHANDLE *pHandle, VBoxGuestHGCMConnectInfo *pData);
2819 </screen> Connects to the service: <screen>
2820 VBoxGuestHGCMConnectInfo data;
2821
2822 memset (&amp;data, sizeof (VBoxGuestHGCMConnectInfo));
2823
2824 data.result = VINF_SUCCESS;
2825 data.Loc.type = VMMDevHGCMLoc_LocalHost_Existing;
2826 strcpy (data.Loc.u.host.achName, "VBoxSharedFolders");
2827
2828 rc = VbglHGCMConnect (&amp;handle, &amp;data);
2829
2830 if (RT_SUCCESS (rc))
2831 {
2832 rc = data.result;
2833 }
2834
2835 if (RT_SUCCESS (rc))
2836 {
2837 /* Get the assigned client identifier. */
2838 ulClientID = data.u32ClientID;
2839 }
2840 </screen></para>
2841
2842 <para><screen>
2843DECLVBGL(int) VbglHGCMDisconnect (VBGLHGCMHANDLE handle, VBoxGuestHGCMDisconnectInfo *pData);
2844 </screen> Disconnects from the service. <screen>
2845 VBoxGuestHGCMDisconnectInfo data;
2846
2847 RtlZeroMemory (&amp;data, sizeof (VBoxGuestHGCMDisconnectInfo));
2848
2849 data.result = VINF_SUCCESS;
2850 data.u32ClientID = ulClientID;
2851
2852 rc = VbglHGCMDisconnect (handle, &amp;data);
2853 </screen></para>
2854
2855 <para><screen>
2856DECLVBGL(int) VbglHGCMCall (VBGLHGCMHANDLE handle, VBoxGuestHGCMCallInfo *pData, uint32_t cbData);
2857 </screen> Calls a function in the service. <screen>
2858typedef struct _VBoxSFRead
2859{
2860 VBoxGuestHGCMCallInfo callInfo;
2861
2862 /** pointer, in: SHFLROOT
2863 * Root handle of the mapping which name is queried.
2864 */
2865 HGCMFunctionParameter root;
2866
2867 /** value64, in:
2868 * SHFLHANDLE of object to read from.
2869 */
2870 HGCMFunctionParameter handle;
2871
2872 /** value64, in:
2873 * Offset to read from.
2874 */
2875 HGCMFunctionParameter offset;
2876
2877 /** value64, in/out:
2878 * Bytes to read/How many were read.
2879 */
2880 HGCMFunctionParameter cb;
2881
2882 /** pointer, out:
2883 * Buffer to place data to.
2884 */
2885 HGCMFunctionParameter buffer;
2886
2887} VBoxSFRead;
2888
2889/** Number of parameters */
2890#define SHFL_CPARMS_READ (5)
2891
2892...
2893
2894 VBoxSFRead data;
2895
2896 /* The call information. */
2897 data.callInfo.result = VINF_SUCCESS; /* Will be returned by HGCM. */
2898 data.callInfo.u32ClientID = ulClientID; /* Client identifier. */
2899 data.callInfo.u32Function = SHFL_FN_READ; /* The function code. */
2900 data.callInfo.cParms = SHFL_CPARMS_READ; /* Number of parameters. */
2901
2902 /* Initialize parameters. */
2903 data.root.type = VMMDevHGCMParmType_32bit;
2904 data.root.u.value32 = pMap-&gt;root;
2905
2906 data.handle.type = VMMDevHGCMParmType_64bit;
2907 data.handle.u.value64 = hFile;
2908
2909 data.offset.type = VMMDevHGCMParmType_64bit;
2910 data.offset.u.value64 = offset;
2911
2912 data.cb.type = VMMDevHGCMParmType_32bit;
2913 data.cb.u.value32 = *pcbBuffer;
2914
2915 data.buffer.type = VMMDevHGCMParmType_LinAddr_Out;
2916 data.buffer.u.Pointer.size = *pcbBuffer;
2917 data.buffer.u.Pointer.u.linearAddr = (uintptr_t)pBuffer;
2918
2919 rc = VbglHGCMCall (handle, &amp;data.callInfo, sizeof (data));
2920
2921 if (RT_SUCCESS (rc))
2922 {
2923 rc = data.callInfo.result;
2924 *pcbBuffer = data.cb.u.value32; /* This is returned by the HGCM service. */
2925 }
2926 </screen></para>
2927 </sect2>
2928
2929 <sect2>
2930 <title>Guest application interface</title>
2931
2932 <para>Applications call the VirtualBox Guest Additions driver to
2933 utilize the HGCM interface. There are IOCTL's which correspond to the
2934 <computeroutput>Vbgl*</computeroutput> functions: <itemizedlist>
2935 <listitem>
2936 <para><computeroutput>VBOXGUEST_IOCTL_HGCM_CONNECT</computeroutput></para>
2937 </listitem>
2938
2939 <listitem>
2940 <para><computeroutput>VBOXGUEST_IOCTL_HGCM_DISCONNECT</computeroutput></para>
2941 </listitem>
2942
2943 <listitem>
2944 <para><computeroutput>VBOXGUEST_IOCTL_HGCM_CALL</computeroutput></para>
2945 </listitem>
2946 </itemizedlist></para>
2947
2948 <para>These IOCTL's get the same input buffer as
2949 <computeroutput>VbglHGCM*</computeroutput> functions and the output
2950 buffer has the same format as the input buffer. The same address can
2951 be used as the input and output buffers.</para>
2952
2953 <para>For example see the guest part of shared clipboard, which runs
2954 as an application and uses the HGCM interface.</para>
2955 </sect2>
2956 </sect1>
2957
2958 <sect1>
2959 <title>HGCM Service Implementation</title>
2960
2961 <para>The HGCM service is a shared library with a specific set of entry
2962 points. The library must export the
2963 <computeroutput>VBoxHGCMSvcLoad</computeroutput> entry point: <screen>
2964extern "C" DECLCALLBACK(DECLEXPORT(int)) VBoxHGCMSvcLoad (VBOXHGCMSVCFNTABLE *ptable)
2965 </screen></para>
2966
2967 <para>The service must check the
2968 <computeroutput>ptable-&gt;cbSize</computeroutput> and
2969 <computeroutput>ptable-&gt;u32Version</computeroutput> fields of the
2970 input structure and fill the remaining fields with function pointers of
2971 entry points and the size of the required client buffer size.</para>
2972
2973 <para>The HGCM service gets a dedicated thread, which calls service
2974 entry points synchronously, that is the service will be called again
2975 only when a previous call has returned. However, the guest calls can be
2976 processed asynchronously. The service must call a completion callback
2977 when the operation is actually completed. The callback can be issued
2978 from another thread as well.</para>
2979
2980 <para>Service entry points are listed in the
2981 <computeroutput>VBox/hgcmsvc.h</computeroutput> in the
2982 <computeroutput>VBOXHGCMSVCFNTABLE</computeroutput> structure. <table>
2983 <title>Service entry points</title>
2984
2985 <tgroup cols="2">
2986 <tbody>
2987 <row>
2988 <entry><emphasis role="bold">Entry</emphasis></entry>
2989
2990 <entry><emphasis role="bold">Description</emphasis></entry>
2991 </row>
2992
2993 <row>
2994 <entry>pfnUnload</entry>
2995
2996 <entry>The service is being unloaded.</entry>
2997 </row>
2998
2999 <row>
3000 <entry>pfnConnect</entry>
3001
3002 <entry>A client <computeroutput>u32ClientID</computeroutput>
3003 is connected to the service. The
3004 <computeroutput>pvClient</computeroutput> parameter points to
3005 an allocated memory buffer which can be used by the service to
3006 store the client information.</entry>
3007 </row>
3008
3009 <row>
3010 <entry>pfnDisconnect</entry>
3011
3012 <entry>A client is being disconnected.</entry>
3013 </row>
3014
3015 <row>
3016 <entry>pfnCall</entry>
3017
3018 <entry>A guest client calls a service function. The
3019 <computeroutput>callHandle</computeroutput> must be used in
3020 the VBOXHGCMSVCHELPERS::pfnCallComplete callback when the call
3021 has been processed.</entry>
3022 </row>
3023
3024 <row>
3025 <entry>pfnHostCall</entry>
3026
3027 <entry>Called by the VirtualBox host components to perform
3028 functions which should be not accessible by the guest. Usually
3029 this entry point is used by VirtualBox to configure the
3030 service.</entry>
3031 </row>
3032
3033 <row>
3034 <entry>pfnSaveState</entry>
3035
3036 <entry>The VM state is being saved and the service must save
3037 relevant information using the SSM API
3038 (<computeroutput>VBox/ssm.h</computeroutput>).</entry>
3039 </row>
3040
3041 <row>
3042 <entry>pfnLoadState</entry>
3043
3044 <entry>The VM is being restored from the saved state and the
3045 service must load the saved information and be able to
3046 continue operations from the saved state.</entry>
3047 </row>
3048 </tbody>
3049 </tgroup>
3050 </table></para>
3051 </sect1>
3052 </chapter>
3053
3054 <chapter id="rdpweb">
3055 <title>RDP Web Control</title>
3056
3057 <para>The VirtualBox <emphasis>RDP Web Control</emphasis> (RDPWeb)
3058 provides remote access to a running VM. RDPWeb is a RDP (Remote Desktop
3059 Protocol) client based on Flash technology and can be used from a Web
3060 browser with a Flash plugin.</para>
3061
3062 <sect1>
3063 <title>RDPWeb features</title>
3064
3065 <para>RDPWeb is embedded into a Web page and can connect to VRDP server
3066 in order to displays the VM screen and pass keyboard and mouse events to
3067 the VM.</para>
3068 </sect1>
3069
3070 <sect1>
3071 <title>RDPWeb reference</title>
3072
3073 <para>RDPWeb consists of two required components:<itemizedlist>
3074 <listitem>
3075 <para>Flash movie
3076 <computeroutput>RDPClientUI.swf</computeroutput></para>
3077 </listitem>
3078
3079 <listitem>
3080 <para>JavaScript helpers
3081 <computeroutput>webclient.js</computeroutput></para>
3082 </listitem>
3083 </itemizedlist></para>
3084
3085 <para>The VirtualBox SDK contains sample HTML code
3086 including:<itemizedlist>
3087 <listitem>
3088 <para>JavaScript library for embedding Flash content
3089 <computeroutput>SWFObject.js</computeroutput></para>
3090 </listitem>
3091
3092 <listitem>
3093 <para>Sample HTML page
3094 <computeroutput>webclient3.html</computeroutput></para>
3095 </listitem>
3096 </itemizedlist></para>
3097
3098 <sect2>
3099 <title>RDPWeb functions</title>
3100
3101 <para><computeroutput>RDPClientUI.swf</computeroutput> and
3102 <computeroutput>webclient.js</computeroutput> work with each other.
3103 JavaScript code is responsible for a proper SWF initialization,
3104 delivering mouse events to the SWF and processing resize requests from
3105 the SWF. On the other hand, the SWF contains a few JavaScript callable
3106 methods, which are used both from
3107 <computeroutput>webclient.js</computeroutput> and the user HTML
3108 page.</para>
3109
3110 <sect3>
3111 <title>JavaScript functions</title>
3112
3113 <para><computeroutput>webclient.js</computeroutput> contains helper
3114 functions. In the following table ElementId refers to an HTML
3115 element name or attribute, and Element to the HTML element itself.
3116 HTML code<programlisting>
3117 &lt;div id="FlashRDP"&gt;
3118 &lt;/div&gt;
3119</programlisting> would have ElementId equal to FlashRDP and Element equal to
3120 the div element.</para>
3121
3122 <para><itemizedlist>
3123 <listitem>
3124 <programlisting>RDPWebClient.embedSWF(SWFFileName, ElementId)</programlisting>
3125
3126 <para>Uses SWFObject library to replace the HTML element with
3127 the Flash movie.</para>
3128 </listitem>
3129
3130 <listitem>
3131 <programlisting>RDPWebClient.isRDPWebControlById(ElementId)</programlisting>
3132
3133 <para>Returns true if the given id refers to a RDPWeb Flash
3134 element.</para>
3135 </listitem>
3136
3137 <listitem>
3138 <programlisting>RDPWebClient.isRDPWebControlByElement(Element)</programlisting>
3139
3140 <para>Returns true if the given element is a RDPWeb Flash
3141 element.</para>
3142 </listitem>
3143
3144 <listitem>
3145 <programlisting>RDPWebClient.getFlashById(ElementId)</programlisting>
3146
3147 <para>Returns an element, which is referenced by the given id.
3148 This function will try to resolve any element, event if it is
3149 not a Flash movie.</para>
3150 </listitem>
3151 </itemizedlist></para>
3152 </sect3>
3153
3154 <sect3>
3155 <title>Flash methods callable from JavaScript</title>
3156
3157 <para><computeroutput>RDPWebClienUI.swf</computeroutput> methods can
3158 be called directly from JavaScript code on a HTML page.</para>
3159
3160 <itemizedlist>
3161 <listitem>
3162 <para>getProperty(Name)</para>
3163 </listitem>
3164
3165 <listitem>
3166 <para>setProperty(Name)</para>
3167 </listitem>
3168
3169 <listitem>
3170 <para>connect()</para>
3171 </listitem>
3172
3173 <listitem>
3174 <para>disconnect()</para>
3175 </listitem>
3176
3177 <listitem>
3178 <para>keyboardSendCAD()</para>
3179 </listitem>
3180 </itemizedlist>
3181 </sect3>
3182
3183 <sect3>
3184 <title>Flash JavaScript callbacks</title>
3185
3186 <para><computeroutput>RDPWebClienUI.swf</computeroutput> calls
3187 JavaScript functions provided by the HTML page.</para>
3188 </sect3>
3189 </sect2>
3190
3191 <sect2>
3192 <title>Embedding RDPWeb in an HTML page</title>
3193
3194 <para>It is necessary to include
3195 <computeroutput>webclient.js</computeroutput> helper script. If
3196 SWFObject library is used, the
3197 <computeroutput>swfobject.js</computeroutput> must be also included
3198 and RDPWeb flash content can be embedded to a Web page using dynamic
3199 HTML. The HTML must include a "placeholder", which consists of 2
3200 <computeroutput>div</computeroutput> elements.</para>
3201 </sect2>
3202 </sect1>
3203
3204 <sect1>
3205 <title>RDPWeb change log</title>
3206
3207 <sect2>
3208 <title>Version 1.2.28</title>
3209
3210 <itemizedlist>
3211 <listitem>
3212 <para><computeroutput>keyboardLayout</computeroutput>,
3213 <computeroutput>keyboardLayouts</computeroutput>,
3214 <computeroutput>UUID</computeroutput> properties.</para>
3215 </listitem>
3216
3217 <listitem>
3218 <para>Support for German keyboard layout on the client.</para>
3219 </listitem>
3220
3221 <listitem>
3222 <para>Rebranding to Oracle.</para>
3223 </listitem>
3224 </itemizedlist>
3225 </sect2>
3226
3227 <sect2>
3228 <title>Version 1.1.26</title>
3229
3230 <itemizedlist>
3231 <listitem>
3232 <para><computeroutput>webclient.js</computeroutput> is a part of
3233 the distribution package.</para>
3234 </listitem>
3235
3236 <listitem>
3237 <para><computeroutput>lastError</computeroutput> property.</para>
3238 </listitem>
3239
3240 <listitem>
3241 <para><computeroutput>keyboardSendScancodes</computeroutput> and
3242 <computeroutput>keyboardSendCAD</computeroutput> methods.</para>
3243 </listitem>
3244 </itemizedlist>
3245 </sect2>
3246
3247 <sect2>
3248 <title>Version 1.0.24</title>
3249
3250 <itemizedlist>
3251 <listitem>
3252 <para>Initial release.</para>
3253 </listitem>
3254 </itemizedlist>
3255 </sect2>
3256 </sect1>
3257 </chapter>
3258
3259 <chapter id="vbox-auth">
3260 <title>VirtualBox external authentication modules</title>
3261
3262 <para>VirtualBox supports arbitrary external modules to perform
3263 authentication. The module is used when the authentication method is set
3264 to "external" for a particular VM VRDE access and the library was
3265 specified with <computeroutput>VBoxManage setproperty
3266 vrdeauthlibrary</computeroutput>. Web service also use the authentication
3267 module which was specified with <computeroutput>VBoxManage setproperty
3268 websrvauthlibrary</computeroutput>.</para>
3269
3270 <para>This library will be loaded by the VM or web service process on
3271 demand, i.e. when the first remote desktop connection is made by a client
3272 or when a client that wants to use the web service logs on.</para>
3273
3274 <para>External authentication is the most flexible as the external handler
3275 can both choose to grant access to everyone (like the "null"
3276 authentication method would) and delegate the request to the guest
3277 authentication component. When delegating the request to the guest
3278 component, the handler will still be called afterwards with the option to
3279 override the result.</para>
3280
3281 <para>An authentication library is required to implement exactly one entry
3282 point:</para>
3283
3284 <screen>#include "VBoxAuth.h"
3285
3286/**
3287 * Authentication library entry point.
3288 *
3289 * Parameters:
3290 *
3291 * szCaller The name of the component which calls the library (UTF8).
3292 * pUuid Pointer to the UUID of the accessed virtual machine. Can be NULL.
3293 * guestJudgement Result of the guest authentication.
3294 * szUser User name passed in by the client (UTF8).
3295 * szPassword Password passed in by the client (UTF8).
3296 * szDomain Domain passed in by the client (UTF8).
3297 * fLogon Boolean flag. Indicates whether the entry point is called
3298 * for a client logon or the client disconnect.
3299 * clientId Server side unique identifier of the client.
3300 *
3301 * Return code:
3302 *
3303 * AuthResultAccessDenied Client access has been denied.
3304 * AuthResultAccessGranted Client has the right to use the
3305 * virtual machine.
3306 * AuthResultDelegateToGuest Guest operating system must
3307 * authenticate the client and the
3308 * library must be called again with
3309 * the result of the guest
3310 * authentication.
3311 *
3312 * Note: When 'fLogon' is 0, only pszCaller, pUuid and clientId are valid and the return
3313 * code is ignored.
3314 */
3315AuthResult AUTHCALL AuthEntry(
3316 const char *szCaller,
3317 PAUTHUUID pUuid,
3318 AuthGuestJudgement guestJudgement,
3319 const char *szUser,
3320 const char *szPassword
3321 const char *szDomain
3322 int fLogon,
3323 unsigned clientId)
3324{
3325 /* Process request against your authentication source of choice. */
3326 // if (authSucceeded(...))
3327 // return AuthResultAccessGranted;
3328 return AuthResultAccessDenied;
3329}</screen>
3330
3331 <para>A note regarding the UUID implementation of the
3332 <computeroutput>pUuid</computeroutput> argument: VirtualBox uses a
3333 consistent binary representation of UUIDs on all platforms. For this
3334 reason the integer fields comprising the UUID are stored as little endian
3335 values. If you want to pass such UUIDs to code which assumes that the
3336 integer fields are big endian (often also called network byte order), you
3337 need to adjust the contents of the UUID to e.g. achieve the same string
3338 representation. The required changes are:<itemizedlist>
3339 <listitem>
3340 <para>reverse the order of byte 0, 1, 2 and 3</para>
3341 </listitem>
3342
3343 <listitem>
3344 <para>reverse the order of byte 4 and 5</para>
3345 </listitem>
3346
3347 <listitem>
3348 <para>reverse the order of byte 6 and 7.</para>
3349 </listitem>
3350 </itemizedlist>Using this conversion you will get identical results when
3351 converting the binary UUID to the string representation.</para>
3352
3353 <para>The <computeroutput>guestJudgement</computeroutput> argument
3354 contains information about the guest authentication status. For the first
3355 call, it is always set to
3356 <computeroutput>AuthGuestNotAsked</computeroutput>. In case the
3357 <computeroutput>AuthEntry</computeroutput> function returns
3358 <computeroutput>AuthResultDelegateToGuest</computeroutput>, a guest
3359 authentication will be attempted and another call to the
3360 <computeroutput>AuthEntry</computeroutput> is made with its result. This
3361 can be either granted / denied or no judgement (the guest component chose
3362 for whatever reason to not make a decision). In case there is a problem
3363 with the guest authentication module (e.g. the Additions are not installed
3364 or not running or the guest did not respond within a timeout), the "not
3365 reacted" status will be returned.</para>
3366 </chapter>
3367
3368 <chapter id="javaapi">
3369 <title>Using Java API</title>
3370
3371 <sect1>
3372 <title>Introduction</title>
3373
3374 <para>VirtualBox can be controlled by a Java API, both locally
3375 (COM/XPCOM) and from remote (SOAP) clients. As with the Python bindings,
3376 a generic glue layer tries to hide all platform differences, allowing
3377 for source and binary compatibility on different platforms.</para>
3378 </sect1>
3379
3380 <sect1>
3381 <title>Requirements</title>
3382
3383 <para>To use the Java bindings, there are certain requirements depending
3384 on the platform. First of all, you need JDK 1.5 (Java 5) or later. Also
3385 please make sure that the version of the VirtualBox API .jar file
3386 exactly matches the version of VirtualBox you use. To avoid confusion,
3387 the VirtualBox API provides versioning in the Java package name, e.g.
3388 the package is named <computeroutput>org.virtualbox_3_2</computeroutput>
3389 for VirtualBox version 3.2. <itemizedlist>
3390 <listitem>
3391 <para><emphasis role="bold">XPCOM:</emphasis> - for all platforms,
3392 but Microsoft Windows. A Java bridge based on JavaXPCOM is shipped
3393 with VirtualBox. The classpath must contain
3394 <computeroutput>vboxjxpcom.jar</computeroutput> and the
3395 <computeroutput>vbox.home</computeroutput> property must be set to
3396 location where the VirtualBox binaries are. Please make sure that
3397 the JVM bitness matches bitness of VirtualBox you use as the XPCOM
3398 bridge relies on native libraries.</para>
3399
3400 <para>Start your application like this: <programlisting>
3401 java -cp vboxjxpcom.jar -Dvbox.home=/opt/virtualbox MyProgram
3402 </programlisting></para>
3403 </listitem>
3404
3405 <listitem>
3406 <para><emphasis role="bold">COM:</emphasis> - for Microsoft
3407 Windows. We rely on <computeroutput>Jacob</computeroutput> - a
3408 generic Java to COM bridge - which has to be installed seperately.
3409 See <ulink
3410 url="http://sourceforge.net/projects/jacob-project/">http://sourceforge.net/projects/jacob-project/</ulink>
3411 for installation instructions. Also, the VirtualBox provided
3412 <computeroutput>vboxjmscom.jar</computeroutput> must be in the
3413 class path.</para>
3414
3415 <para>Start your application like this: <programlisting>
3416 java -cp vboxjmscom.jar;c:\jacob\jacob.jar -Djava.library.path=c:\jacob MyProgram
3417 </programlisting></para>
3418 </listitem>
3419
3420 <listitem>
3421 <para><emphasis role="bold">SOAP</emphasis> - all platforms. Java
3422 6 is required, as it comes with builtin support for SOAP via the
3423 JAX-WS library. Also, the VirtualBox provided
3424 <computeroutput>vbojws.jar</computeroutput> must be in the class
3425 path. In the SOAP case it's possible to create several
3426 VirtualBoxManager instances to communicate with multiple
3427 VirtualBox hosts.</para>
3428
3429 <para>Start your application like this: <programlisting>
3430 java -cp vboxjws.jar MyProgram
3431 </programlisting></para>
3432 </listitem>
3433 </itemizedlist></para>
3434
3435 <para>Exception handling is also generalized by the generic glue layer,
3436 so that all methods could throw
3437 <computeroutput>VBoxException</computeroutput> containing human-readable
3438 text message (see <computeroutput>getMessage()</computeroutput> method)
3439 along with wrapped original exception (see
3440 <computeroutput>getWrapped()</computeroutput> method).</para>
3441 </sect1>
3442
3443 <sect1>
3444 <title>Example</title>
3445
3446 <para>This example shows a simple use case of the Java API. Differences
3447 for SOAP vs. local version are minimal, and limited to the connection
3448 setup phase (see <computeroutput>ws</computeroutput> variable). In the
3449 SOAP case it's possible to create several VirtualBoxManager instances to
3450 communicate with multiple VirtualBox hosts. <programlisting>
3451 import org.virtualbox_3_3.*;
3452 ....
3453 VirtualBoxManager mgr = VirtualBoxManager.createInstance(null);
3454 boolean ws = false; // or true, if we need the SOAP version
3455 if (ws)
3456 {
3457 String url = "http://myhost:18034";
3458 String user = "test";
3459 String passwd = "test";
3460 mgr.connect(url, user, passwd);
3461 }
3462 IVirtualBox vbox = mgr.getVBox();
3463 System.out.println("VirtualBox version: " + vbox.getVersion() + "\n");
3464 // get first VM name
3465 String m = vbox.getMachines().get(0).getName();
3466 System.out.println("\nAttempting to start VM '" + m + "'");
3467 // start it
3468 mgr.startVm(m, null, 7000);
3469
3470 if (ws)
3471 mgr.disconnect();
3472
3473 mgr.cleanup();
3474 </programlisting> For more a complete example, see
3475 <computeroutput>TestVBox.java</computeroutput>, shipped with the
3476 SDK.</para>
3477 </sect1>
3478 </chapter>
3479
3480 <chapter>
3481 <title>License information</title>
3482
3483 <para>The sample code files shipped with the SDK are generally licensed
3484 liberally to make it easy for anyone to use this code for their own
3485 application code.</para>
3486
3487 <para>The Java files under
3488 <computeroutput>bindings/webservice/java/jax-ws/</computeroutput> (library
3489 files for the object-oriented web service) are, by contrast, licensed
3490 under the GNU Lesser General Public License (LGPL) V2.1.</para>
3491
3492 <para>See
3493 <computeroutput>sdk/bindings/webservice/java/jax-ws/src/COPYING.LIB</computeroutput>
3494 for the full text of the LGPL 2.1.</para>
3495
3496 <para>When in doubt, please refer to the individual source code files
3497 shipped with this SDK.</para>
3498 </chapter>
3499
3500 <chapter>
3501 <title>Main API change log</title>
3502
3503 <para>Generally, VirtualBox will maintain API compatibility within a major
3504 release; a major release occurs when the first or the second of the three
3505 version components of VirtualBox change (that is, in the x.y.z scheme, a
3506 major release is one where x or y change, but not when only z
3507 changes).</para>
3508
3509 <para>In other words, updates like those from 2.0.0 to 2.0.2 will not come
3510 with API breakages.</para>
3511
3512 <para>Migration between major releases most likely will lead to API
3513 breakage, so please make sure you updated code accordingly. The OOWS Java
3514 wrappers enforce that mechanism by putting VirtualBox classes into
3515 version-specific packages such as
3516 <computeroutput>org.virtualbox_2_2</computeroutput>. This approach allows
3517 for connecting to multiple VirtualBox versions simultaneously from the
3518 same Java application.</para>
3519
3520 <para>The following sections list incompatible changes that the Main API
3521 underwent since the original release of this SDK Reference with VirtualBox
3522 2.0. A change is deemed "incompatible" only if it breaks existing client
3523 code (e.g. changes in method parameter lists, renamed or removed
3524 interfaces and similar). In other words, the list does not contain new
3525 interfaces, methods or attributes or other changes that do not affect
3526 existing client code.</para>
3527
3528 <sect1>
3529 <title>Incompatible API changes with version 4.2</title>
3530
3531 <itemizedlist>
3532 <listitem>
3533 <para>Guest control APIs for executing guest processes, working with
3534 guest files or directories have been moved to the newly introduced
3535 <xref linkend="IGuestSession" xreflabel="IGuestSession" /> interface which
3536 can be created by calling <xref linkend="IGuest__createSession"
3537 xreflabel="IGuest::createSession()" />.</para>
3538
3539 <para>A guest session will act as a
3540 guest user's impersonation so that the guest credentials only have to
3541 be provided when creating a new guest session. There can be up to 32
3542 guest sessions at once per VM, each session serving up to 2048 guest
3543 processes running or files opened.</para>
3544
3545 <para>Instead of working with process or directory handles before
3546 version 4.2, there now are the dedicated interfaces
3547 <xref linkend="IGuestProcess" xreflabel="IGuestProcess" />,
3548 <xref linkend="IGuestDirectory" xreflabel="IGuestDirectory" /> and
3549 <xref linkend="IGuestFile" xreflabel="IGuestFile" />. To retrieve more
3550 information of a file system object the new interface
3551 <xref linkend="IGuestFsObjInfo" xreflabel="IGuestFsObjInfo" /> has been
3552 introduced.</para>
3553
3554 <para>Even though the guest control API was changed it is backwards
3555 compatible so that it can be used with older installed Guest
3556 Additions. However, to use upcoming features like process termination
3557 or waiting for input / output new Guest Additions must be installed when
3558 these features got implemented.</para>
3559
3560 <para>The following limitations apply:
3561 <itemizedlist>
3562 <listitem><para>The <xref linkend="IGuestFile" xreflabel="IGuestFile" />
3563 interface is not fully implemented yet.</para>
3564 </listitem>
3565 <listitem><para>The symbolic link APIs
3566 <xref linkend="IGuestSession__symlinkCreate"
3567 xreflabel="IGuestSession::symlinkCreate()" />,
3568 <xref linkend="IGuestSession__symlinkExists"
3569 xreflabel="IGuestSession::symlinkExists()" />,
3570 <xref linkend="IGuestSession__symlinkRead"
3571 xreflabel="IGuestSession::symlinkRead()" />,
3572 <xref linkend="IGuestSession__symlinkRemoveDirectory"
3573 xreflabel="IGuestSession::symlinkRemoveDirectory()" /> and
3574 <xref linkend="IGuestSession__symlinkRemoveFile"
3575 xreflabel="IGuestSession::symlinkRemoveFile()" /> are not
3576 implemented yet.</para>
3577 </listitem>
3578 <listitem><para>The directory APIs
3579 <xref linkend="IGuestSession__directoryRemove"
3580 xreflabel="IGuestSession::directoryRemove()" />,
3581 <xref linkend="IGuestSession__directoryRemoveRecursive"
3582 xreflabel="IGuestSession::directoryRemoveRecursive()" />,
3583 <xref linkend="IGuestSession__directoryRename"
3584 xreflabel="IGuestSession::directoryRename()" /> and
3585 <xref linkend="IGuestSession__directorySetACL"
3586 xreflabel="IGuestSession::directorySetACL()" /> are not
3587 implemented yet.</para>
3588 </listitem>
3589 <listitem><para>The temporary file creation API
3590 <xref linkend="IGuestSession__fileCreateTemp"
3591 xreflabel="IGuestSession::fileCreateTemp()" /> is not
3592 implemented yet.</para>
3593 </listitem>
3594 <listitem><para>Guest process termination via
3595 <xref linkend="IProcess__terminate"
3596 xreflabel="IProcess::terminate()" /> is not
3597 implemented yet.</para>
3598 </listitem>
3599 <listitem><para>Waiting for guest process output via
3600 <xref linkend="ProcessWaitForFlag__StdOut" xreflabel="ProcessWaitForFlag::StdOut" />
3601 and <xref linkend="ProcessWaitForFlag__StdErr" xreflabel="ProcessWaitForFlag::StdErr" />
3602 is not implemented yet.</para><para>To wait for process output, <xref linkend="IProcess__read"
3603 xreflabel="IProcess::read()" /> with appropriate flags still can be used to periodically
3604 check for new output data to arrive. Note that <xref linkend="ProcessCreateFlag__WaitForStdOut"
3605 xreflabel="ProcessCreateFlag::WaitForStdOut" /> and / or
3606 <xref linkend="ProcessCreateFlag__WaitForStdErr" xreflabel="ProcessCreateFlag::WaitForStdErr" />
3607 need to be specified when creating a guest process via <xref linkend="IGuestSession__processCreate"
3608 xreflabel="IGuestSession::processCreate()" /> or <xref linkend="IGuestSession__processCreateEx"
3609 xreflabel="IGuestSession::processCreateEx()" />.</para>
3610 </listitem>
3611 <listitem>
3612 <para>ACL (Access Control List) handling in general is not implemented yet.</para>
3613 </listitem>
3614 </itemizedlist>
3615 </para>
3616 </listitem>
3617
3618 <listitem>
3619 <para>The <xref linkend="LockType" xreflabel="LockType" />
3620 enumeration now has an additional value <computeroutput>VM</computeroutput>
3621 which tells <xref linkend="IMachine__lockMachine"
3622 xreflabel="IMachine::lockMachine()" /> to create a full-blown
3623 object structure for running a VM. This was the previous behavior
3624 with <computeroutput>Write</computeroutput>, which now only creates
3625 the minimal object structure to save time and resources (at the
3626 moment the Console object is still created, but all sub-objects
3627 such as Display, Keyboard, Mouse, Guest are not.</para>
3628 </listitem>
3629
3630 <listitem>
3631 <para>Machines can be put in groups (actually an array of groups).
3632 The primary group affects the default placement of files belonging
3633 to a VM. <xref linkend="IVirtualBox__createMachine"
3634 xreflabel="IVirtualBox::createMachine()"/> and
3635 <xref linkend="IVirtualBox__composeMachineFilename"
3636 xreflabel="IVirtualBox::composeMachineFilename()"/> have been
3637 adjusted accordingly, the former taking an array of groups as an
3638 additional parameter and the latter taking a group as an additional
3639 parameter. The create option handling has been changed for those two
3640 methods, too.</para>
3641 </listitem>
3642
3643 <listitem>
3644 <para>The method IVirtualBox::findMedium() has been removed, since
3645 it provides a subset of the functionality of <xref linkend="IVirtualBox__openMedium"
3646 xreflabel="IVirtualBox::openMedium()" />.</para>
3647 </listitem>
3648
3649 <listitem>
3650 <para>The use of acronyms in API enumeration, interface, attribute
3651 and method names has been made much more consistent, previously they
3652 sometimes were lowercase and sometimes mixed case. They are now
3653 consistently all caps:<table>
3654 <title>Renamed identifiers in VirtualBox 4.2</title>
3655
3656 <tgroup cols="2" style="verywide">
3657 <tbody>
3658 <row>
3659 <entry><emphasis role="bold">Old name</emphasis></entry>
3660
3661 <entry><emphasis role="bold">New name</emphasis></entry>
3662 </row>
3663 <row>
3664 <entry>PointingHidType</entry>
3665 <entry><xref linkend="PointingHIDType" xreflabel="PointingHIDType"/></entry>
3666 </row>
3667 <row>
3668 <entry>KeyboardHidType</entry>
3669 <entry><xref linkend="KeyboardHIDType" xreflabel="KeyboardHIDType"/></entry>
3670 </row>
3671 <row>
3672 <entry>IPciAddress</entry>
3673 <entry><xref linkend="IPCIAddress" xreflabel="IPCIAddress"/></entry>
3674 </row>
3675 <row>
3676 <entry>IPciDeviceAttachment</entry>
3677 <entry><xref linkend="IPCIDeviceAttachment" xreflabel="IPCIDeviceAttachment"/></entry>
3678 </row>
3679 <row>
3680 <entry>IMachine::pointingHidType</entry>
3681 <entry><xref linkend="IMachine__pointingHIDType" xreflabel="IMachine::pointingHIDType"/></entry>
3682 </row>
3683 <row>
3684 <entry>IMachine::keyboardHidType</entry>
3685 <entry><xref linkend="IMachine__keyboardHIDType" xreflabel="IMachine::keyboardHIDType"/></entry>
3686 </row>
3687 <row>
3688 <entry>IMachine::hpetEnabled</entry>
3689 <entry><xref linkend="IMachine__HPETEnabled" xreflabel="IMachine::HPETEnabled"/></entry>
3690 </row>
3691 <row>
3692 <entry>IMachine::sessionPid</entry>
3693 <entry><xref linkend="IMachine__sessionPID" xreflabel="IMachine::sessionPID"/></entry>
3694 </row>
3695 <row>
3696 <entry>IMachine::ioCacheEnabled</entry>
3697 <entry><xref linkend="IMachine__IOCacheEnabled" xreflabel="IMachine::IOCacheEnabled"/></entry>
3698 </row>
3699 <row>
3700 <entry>IMachine::ioCacheSize</entry>
3701 <entry><xref linkend="IMachine__IOCacheSize" xreflabel="IMachine::IOCacheSize"/></entry>
3702 </row>
3703 <row>
3704 <entry>IMachine::pciDeviceAssignments</entry>
3705 <entry><xref linkend="IMachine__PCIDeviceAssignments" xreflabel="IMachine::PCIDeviceAssignments"/></entry>
3706 </row>
3707 <row>
3708 <entry>IMachine::attachHostPciDevice()</entry>
3709 <entry><xref linkend="IMachine__attachHostPCIDevice" xreflabel="IMachine::attachHostPCIDevice"/></entry>
3710 </row>
3711 <row>
3712 <entry>IMachine::detachHostPciDevice()</entry>
3713 <entry><xref linkend="IMachine__detachHostPCIDevice" xreflabel="IMachine::detachHostPCIDevice()"/></entry>
3714 </row>
3715 <row>
3716 <entry>IConsole::attachedPciDevices</entry>
3717 <entry><xref linkend="IConsole__attachedPCIDevices" xreflabel="IConsole::attachedPCIDevices"/></entry>
3718 </row>
3719 <row>
3720 <entry>IHostNetworkInterface::dhcpEnabled</entry>
3721 <entry><xref linkend="IHostNetworkInterface__DHCPEnabled" xreflabel="IHostNetworkInterface::DHCPEnabled"/></entry>
3722 </row>
3723 <row>
3724 <entry>IHostNetworkInterface::enableStaticIpConfig()</entry>
3725 <entry><xref linkend="IHostNetworkInterface__enableStaticIPConfig" xreflabel="IHostNetworkInterface::enableStaticIPConfig()"/></entry>
3726 </row>
3727 <row>
3728 <entry>IHostNetworkInterface::enableStaticIpConfigV6()</entry>
3729 <entry><xref linkend="IHostNetworkInterface__enableStaticIPConfigV6" xreflabel="IHostNetworkInterface::enableStaticIPConfigV6()"/></entry>
3730 </row>
3731 <row>
3732 <entry>IHostNetworkInterface::enableDynamicIpConfig()</entry>
3733 <entry><xref linkend="IHostNetworkInterface__enableDynamicIPConfig" xreflabel="IHostNetworkInterface::enableDynamicIPConfig()"/></entry>
3734 </row>
3735 <row>
3736 <entry>IHostNetworkInterface::dhcpRediscover()</entry>
3737 <entry><xref linkend="IHostNetworkInterface__DHCPRediscover" xreflabel="IHostNetworkInterface::DHCPRediscover()"/></entry>
3738 </row>
3739 <row>
3740 <entry>IHost::Acceleration3DAvailable</entry>
3741 <entry><xref linkend="IHost__acceleration3DAvailable" xreflabel="IHost::acceleration3DAvailable"/></entry>
3742 </row>
3743 <row>
3744 <entry>IGuestOSType::recommendedPae</entry>
3745 <entry><xref linkend="IGuestOSType__recommendedPAE" xreflabel="IGuestOSType::recommendedPAE"/></entry>
3746 </row>
3747 <row>
3748 <entry>IGuestOSType::recommendedDvdStorageController</entry>
3749 <entry><xref linkend="IGuestOSType__recommendedDVDStorageController" xreflabel="IGuestOSType::recommendedDVDStorageController"/></entry>
3750 </row>
3751 <row>
3752 <entry>IGuestOSType::recommendedDvdStorageBus</entry>
3753 <entry><xref linkend="IGuestOSType__recommendedDVDStorageBus" xreflabel="IGuestOSType::recommendedDVDStorageBus"/></entry>
3754 </row>
3755 <row>
3756 <entry>IGuestOSType::recommendedHdStorageController</entry>
3757 <entry><xref linkend="IGuestOSType__recommendedHDStorageController" xreflabel="IGuestOSType::recommendedHDStorageController"/></entry>
3758 </row>
3759 <row>
3760 <entry>IGuestOSType::recommendedHdStorageBus</entry>
3761 <entry><xref linkend="IGuestOSType__recommendedHDStorageBus" xreflabel="IGuestOSType::recommendedHDStorageBus"/></entry>
3762 </row>
3763 <row>
3764 <entry>IGuestOSType::recommendedUsbHid</entry>
3765 <entry><xref linkend="IGuestOSType__recommendedUSBHID" xreflabel="IGuestOSType::recommendedUSBHID"/></entry>
3766 </row>
3767 <row>
3768 <entry>IGuestOSType::recommendedHpet</entry>
3769 <entry><xref linkend="IGuestOSType__recommendedHPET" xreflabel="IGuestOSType::recommendedHPET"/></entry>
3770 </row>
3771 <row>
3772 <entry>IGuestOSType::recommendedUsbTablet</entry>
3773 <entry><xref linkend="IGuestOSType__recommendedUSBTablet" xreflabel="IGuestOSType::recommendedUSBTablet"/></entry>
3774 </row>
3775 <row>
3776 <entry>IGuestOSType::recommendedRtcUseUtc</entry>
3777 <entry><xref linkend="IGuestOSType__recommendedRTCUseUTC" xreflabel="IGuestOSType::recommendedRTCUseUTC"/></entry>
3778 </row>
3779 <row>
3780 <entry>IGuestOSType::recommendedUsb</entry>
3781 <entry><xref linkend="IGuestOSType__recommendedUSB" xreflabel="IGuestOSType::recommendedUSB"/></entry>
3782 </row>
3783 <row>
3784 <entry>INetworkAdapter::natDriver</entry>
3785 <entry><xref linkend="INetworkAdapter__NATEngine" xreflabel="INetworkAdapter::NATEngine"/></entry>
3786 </row>
3787 <row>
3788 <entry>IUSBController::enabledEhci</entry>
3789 <entry><xref linkend="IUSBController__enabledEHCI" xreflabel="IUSBController::enabledEHCI"/></entry>
3790 </row>
3791 <row>
3792 <entry>INATEngine::tftpPrefix</entry>
3793 <entry><xref linkend="INATEngine__TFTPPrefix" xreflabel="INATEngine::TFTPPrefix"/></entry>
3794 </row>
3795 <row>
3796 <entry>INATEngine::tftpBootFile</entry>
3797 <entry><xref linkend="INATEngine__TFTPBootFile" xreflabel="INATEngine::TFTPBootFile"/></entry>
3798 </row>
3799 <row>
3800 <entry>INATEngine::tftpNextServer</entry>
3801 <entry><xref linkend="INATEngine__TFTPNextServer" xreflabel="INATEngine::TFTPNextServer"/></entry>
3802 </row>
3803 <row>
3804 <entry>INATEngine::dnsPassDomain</entry>
3805 <entry><xref linkend="INATEngine__DNSPassDomain" xreflabel="INATEngine::DNSPassDomain"/></entry>
3806 </row>
3807 <row>
3808 <entry>INATEngine::dnsProxy</entry>
3809 <entry><xref linkend="INATEngine__DNSProxy" xreflabel="INATEngine::DNSProxy"/></entry>
3810 </row>
3811 <row>
3812 <entry>INATEngine::dnsUseHostResolver</entry>
3813 <entry><xref linkend="INATEngine__DNSUseHostResolver" xreflabel="INATEngine::DNSUseHostResolver"/></entry>
3814 </row>
3815 <row>
3816 <entry>VBoxEventType::OnHostPciDevicePlug</entry>
3817 <entry><xref linkend="VBoxEventType__OnHostPCIDevicePlug" xreflabel="VBoxEventType::OnHostPCIDevicePlug"/></entry>
3818 </row>
3819 <row>
3820 <entry>ICPUChangedEvent::cpu</entry>
3821 <entry><xref linkend="ICPUChangedEvent__CPU" xreflabel="ICPUChangedEvent::CPU"/></entry>
3822 </row>
3823 <row>
3824 <entry>INATRedirectEvent::hostIp</entry>
3825 <entry><xref linkend="INATRedirectEvent__hostIP" xreflabel="INATRedirectEvent::hostIP"/></entry>
3826 </row>
3827 <row>
3828 <entry>INATRedirectEvent::guestIp</entry>
3829 <entry><xref linkend="INATRedirectEvent__guestIP" xreflabel="INATRedirectEvent::guestIP"/></entry>
3830 </row>
3831 <row>
3832 <entry>IHostPciDevicePlugEvent</entry>
3833 <entry><xref linkend="IHostPCIDevicePlugEvent" xreflabel="IHostPCIDevicePlugEvent"/></entry>
3834 </row>
3835 </tbody>
3836 </tgroup></table></para>
3837 </listitem>
3838 </itemizedlist>
3839 </sect1>
3840
3841
3842 <sect1>
3843 <title>Incompatible API changes with version 4.1</title>
3844
3845 <itemizedlist>
3846 <listitem>
3847 <para>The method <xref linkend="IAppliance__importMachines"
3848 xreflabel="IAppliance::importMachines()" /> has one more parameter
3849 now, which allows to configure the import process in more detail.
3850 </para>
3851 </listitem>
3852
3853 <listitem>
3854 <para>The method <xref linkend="IVirtualBox__openMedium"
3855 xreflabel="IVirtualBox::openMedium()" /> has one more parameter
3856 now, which allows resolving duplicate medium UUIDs without the need
3857 for external tools.</para>
3858 </listitem>
3859
3860 <listitem>
3861 <para>The <xref linkend="INetworkAdapter" xreflabel="INetworkAdapter"/>
3862 interface has been cleaned up. The various methods to activate an
3863 attachment type have been replaced by the
3864 <xref linkend="INetworkAdapter__attachmentType" xreflabel="INetworkAdapter::attachmentType"/> setter.</para>
3865 <para>Additionally each attachment mode now has its own attribute,
3866 which means that host only networks no longer share the settings with
3867 bridged interfaces.</para>
3868 <para>To allow introducing new network attachment implementations
3869 without making API changes, the concept of a generic network
3870 attachment driver has been introduced, which is configurable through
3871 key/value properties.</para>
3872 </listitem>
3873
3874 <listitem>
3875 <para>This version introduces the guest facilities concept. A guest
3876 facility either represents a module or feature the guest is running or
3877 offering, which is defined by <xref linkend="AdditionsFacilityType"
3878 xreflabel="AdditionsFacilityType"/>. Each facility is member of a
3879 <xref linkend="AdditionsFacilityClass" xreflabel="AdditionsFacilityClass"/>
3880 and has a current status indicated by <xref linkend="AdditionsFacilityStatus"
3881 xreflabel="AdditionsFacilityStatus"/>, together with a timestamp (in ms) of
3882 the last status update.</para>
3883 <para>To address the above concept, the following changes were made:
3884 <itemizedlist>
3885 <listitem>
3886 <para>
3887 In the <xref linkend="IGuest" xreflabel="IGuest"/> interface, the following were removed:
3888 <itemizedlist>
3889 <listitem>
3890 <para>the <computeroutput>supportsSeamless</computeroutput> attribute;</para>
3891 </listitem>
3892 <listitem>
3893 <para>the <computeroutput>supportsGraphics</computeroutput> attribute;</para>
3894 </listitem>
3895 </itemizedlist>
3896 </para>
3897 </listitem>
3898 <listitem>
3899 <para>
3900 The function <xref linkend="IGuest__getFacilityStatus" xreflabel="IGuest::getFacilityStatus()"/>
3901 was added. It quickly provides a facility's status without the need to get the facility
3902 collection with <xref linkend="IGuest__facilities" xreflabel="IGuest::facilities"/>.
3903 </para>
3904 </listitem>
3905 <listitem>
3906 <para>
3907 The attribute <xref linkend="IGuest__facilities" xreflabel="IGuest::facilities"/>
3908 was added to provide an easy to access collection of all currently known guest
3909 facilities, that is, it contains all facilies where at least one status update was
3910 made since the guest was started.
3911 </para>
3912 </listitem>
3913 <listitem>
3914 <para>
3915 The interface <xref linkend="IAdditionsFacility" xreflabel="IAdditionsFacility"/>
3916 was added to represent a single facility returned by
3917 <xref linkend="IGuest__facilities" xreflabel="IGuest::facilities"/>.
3918 </para>
3919 </listitem>
3920 <listitem>
3921 <para>
3922 <xref linkend="AdditionsFacilityStatus" xreflabel="AdditionsFacilityStatus"/>
3923 was added to represent a facility's overall status.
3924 </para>
3925 </listitem>
3926 <listitem>
3927 <para>
3928 <xref linkend="AdditionsFacilityType" xreflabel="AdditionsFacilityType"/> and
3929 <xref linkend="AdditionsFacilityClass" xreflabel="AdditionsFacilityClass"/> were
3930 added to represent the facility's type and class.
3931 </para>
3932 </listitem>
3933 </itemizedlist>
3934 </para>
3935 </listitem>
3936 </itemizedlist>
3937 </sect1>
3938
3939 <sect1>
3940 <title>Incompatible API changes with version 4.0</title>
3941
3942 <itemizedlist>
3943 <listitem>
3944 <para>A new Java glue layer replacing the previous OOWS JAX-WS
3945 bindings was introduced. The new library allows for uniform code
3946 targeting both local (COM/XPCOM) and remote (SOAP) transports. Now,
3947 instead of <computeroutput>IWebsessionManager</computeroutput>, the
3948 new class <computeroutput>VirtualBoxManager</computeroutput> must be
3949 used. See <xref linkend="javaapi" xreflabel="Java API chapter" />
3950 for details.</para>
3951 </listitem>
3952
3953 <listitem>
3954 <para>The confusingly named and impractical session APIs were
3955 changed. In existing client code, the following changes need to be
3956 made:<itemizedlist>
3957 <listitem>
3958 <para>Replace any
3959 <computeroutput>IVirtualBox::openSession(uuidMachine,
3960 ...)</computeroutput> API call with the machine's <xref
3961 linkend="IMachine__lockMachine"
3962 xreflabel="IMachine::lockMachine()" /> call and a
3963 <computeroutput>LockType.Write</computeroutput> argument. The
3964 functionality is unchanged, but instead of "opening a direct
3965 session on a machine" all documentation now refers to
3966 "obtaining a write lock on a machine for the client
3967 session".</para>
3968 </listitem>
3969
3970 <listitem>
3971 <para>Similarly, replace any
3972 <computeroutput>IVirtualBox::openExistingSession(uuidMachine,
3973 ...)</computeroutput> call with the machine's <xref
3974 linkend="IMachine__lockMachine"
3975 xreflabel="IMachine::lockMachine()" /> call and a
3976 <computeroutput>LockType.Shared</computeroutput> argument.
3977 Whereas it was previously impossible to connect a client
3978 session to a running VM process in a race-free manner, the new
3979 API will atomically either write-lock the machine for the
3980 current session or establish a remote link to an existing
3981 session. Existing client code which tried calling both
3982 <computeroutput>openSession()</computeroutput> and
3983 <computeroutput>openExistingSession()</computeroutput> can now
3984 use this one call instead.</para>
3985 </listitem>
3986
3987 <listitem>
3988 <para>Third, replace any
3989 <computeroutput>IVirtualBox::openRemoteSession(uuidMachine,
3990 ...)</computeroutput> call with the machine's <xref
3991 linkend="IMachine__launchVMProcess"
3992 xreflabel="IMachine::launchVMProcess()" /> call. The
3993 functionality is unchanged.</para>
3994 </listitem>
3995
3996 <listitem>
3997 <para>The <xref linkend="SessionState"
3998 xreflabel="SessionState" /> enum was adjusted accordingly:
3999 "Open" is now "Locked", "Closed" is now "Unlocked", "Closing"
4000 is now "Unlocking".</para>
4001 </listitem>
4002 </itemizedlist></para>
4003 </listitem>
4004
4005 <listitem>
4006 <para>Virtual machines created with VirtualBox 4.0 or later no
4007 longer register their media in the global media registry in the
4008 <computeroutput>VirtualBox.xml</computeroutput> file. Instead, such
4009 machines list all their media in their own machine XML files. As a
4010 result, a number of media-related APIs had to be modified again.
4011 <itemizedlist>
4012 <listitem>
4013 <para>Neither <xref linkend="IVirtualBox__createHardDisk"
4014 xreflabel="IVirtualBox::createHardDisk()" /> nor <xref
4015 linkend="IVirtualBox__openMedium"
4016 xreflabel="IVirtualBox::openMedium()" /> register media
4017 automatically any more.</para>
4018 </listitem>
4019
4020 <listitem>
4021 <para><xref linkend="IMachine__attachDevice"
4022 xreflabel="IMachine::attachDevice()" /> and <xref
4023 linkend="IMachine__mountMedium"
4024 xreflabel="IMachine::mountMedium()" /> now take an IMedium
4025 object instead of a UUID as an argument. It is these two calls
4026 which add media to a registry now (either a machine registry
4027 for machines created with VirtualBox 4.0 or later or the
4028 global registry otherwise). As a consequence, if a medium is
4029 opened but never attached to a machine, it is no longer added
4030 to any registry any more.</para>
4031 </listitem>
4032
4033 <listitem>
4034 <para>To reduce code duplication, the APIs
4035 IVirtualBox::findHardDisk(), getHardDisk(), findDVDImage(),
4036 getDVDImage(), findFloppyImage() and getFloppyImage() have all
4037 been merged into IVirtualBox::findMedium(), and
4038 IVirtualBox::openHardDisk(), openDVDImage() and
4039 openFloppyImage() have all been merged into <xref
4040 linkend="IVirtualBox__openMedium"
4041 xreflabel="IVirtualBox::openMedium()" />.</para>
4042 </listitem>
4043
4044 <listitem>
4045 <para>The rare use case of changing the UUID and parent UUID
4046 of a medium previously handled by
4047 <computeroutput>openHardDisk()</computeroutput> is now in a
4048 separate IMedium::setIDs method.</para>
4049 </listitem>
4050
4051 <listitem>
4052 <para><computeroutput>ISystemProperties::get/setDefaultHardDiskFolder()</computeroutput>
4053 have been removed since disk images are now by default placed
4054 in each machine's folder.</para>
4055 </listitem>
4056
4057 <listitem>
4058 <para>The <xref linkend="ISystemProperties__infoVDSize"
4059 xreflabel="ISystemProperties::infoVDSize" /> attribute
4060 replaces the <computeroutput>getMaxVDISize()</computeroutput>
4061 API call; this now uses bytes instead of megabytes.</para>
4062 </listitem>
4063 </itemizedlist></para>
4064 </listitem>
4065
4066 <listitem>
4067 <para>Machine management APIs were enhanced as follows:<itemizedlist>
4068 <listitem>
4069 <para><xref linkend="IVirtualBox__createMachine"
4070 xreflabel="IVirtualBox::createMachine()" /> is no longer
4071 restricted to creating machines in the default "Machines"
4072 folder, but can now create machines at arbitrary locations.
4073 For this to work, the parameter list had to be changed.</para>
4074 </listitem>
4075
4076 <listitem>
4077 <para>The long-deprecated
4078 <computeroutput>IVirtualBox::createLegacyMachine()</computeroutput>
4079 API has been removed.</para>
4080 </listitem>
4081
4082 <listitem>
4083 <para>To reduce code duplication and for consistency with the
4084 aforementioned media APIs,
4085 <computeroutput>IVirtualBox::getMachine()</computeroutput> has
4086 been merged with <xref linkend="IVirtualBox__findMachine"
4087 xreflabel="IVirtualBox::findMachine()" />, and
4088 <computeroutput>IMachine::getSnapshot()</computeroutput> has
4089 been merged with <xref linkend="IMachine__findSnapshot"
4090 xreflabel="IMachine::findSnapshot()" />.</para>
4091 </listitem>
4092
4093 <listitem>
4094 <para><computeroutput>IVirtualBox::unregisterMachine()</computeroutput>
4095 was replaced with <xref linkend="IMachine__unregister"
4096 xreflabel="IMachine::unregister()" /> with additional
4097 functionality for cleaning up machine files.</para>
4098 </listitem>
4099
4100 <listitem>
4101 <para><computeroutput>IConsole::forgetSavedState</computeroutput>
4102 has been renamed to <xref
4103 linkend="IConsole__discardSavedState"
4104 xreflabel="IConsole::discardSavedState()" />.</para>
4105 </listitem>
4106 </itemizedlist></para>
4107 </listitem>
4108
4109 <listitem>
4110 <para>All event callbacks APIs were replaced with a new, generic
4111 event mechanism that can be used both locally (COM, XPCOM) and
4112 remotely (web services). Also, the new mechanism is usable from
4113 scripting languages and a local Java. See <xref linkend="IEvent"
4114 xreflabel="events" /> for details. The new concept will require
4115 changes to all clients that used event callbacks.</para>
4116 </listitem>
4117
4118 <listitem>
4119 <para><computeroutput>additionsActive()</computeroutput> was
4120 replaced with <xref linkend="IGuest__additionsRunLevel"
4121 xreflabel="additionsRunLevel()" /> and <xref
4122 linkend="IGuest__getAdditionsStatus"
4123 xreflabel="getAdditionsStatus()" /> in order to support a more
4124 detailed status of the current Guest Additions loading/readiness
4125 state. <xref linkend="IGuest__additionsVersion"
4126 xreflabel="IGuest::additionsVersion()" /> no longer returns the
4127 Guest Additions interface version but the installed Guest Additions
4128 version and revision in form of
4129 <computeroutput>3.3.0r12345</computeroutput>.</para>
4130 </listitem>
4131
4132 <listitem>
4133 <para>To address shared folders auto-mounting support, the following
4134 APIs were extended to require an additional
4135 <computeroutput>automount</computeroutput> parameter: <itemizedlist>
4136 <listitem>
4137 <para><xref linkend="IVirtualBox__createSharedFolder"
4138 xreflabel="IVirtualBox::createSharedFolder()" /></para>
4139 </listitem>
4140
4141 <listitem>
4142 <para><xref linkend="IMachine__createSharedFolder"
4143 xreflabel="IMachine::createSharedFolder()" /></para>
4144 </listitem>
4145
4146 <listitem>
4147 <para><xref linkend="IConsole__createSharedFolder"
4148 xreflabel="IConsole::createSharedFolder()" /></para>
4149 </listitem>
4150 </itemizedlist> Also, a new property named
4151 <computeroutput>autoMount</computeroutput> was added to the <xref
4152 linkend="ISharedFolder" xreflabel="ISharedFolder" />
4153 interface.</para>
4154 </listitem>
4155
4156 <listitem>
4157 <para>The appliance (OVF) APIs were enhanced as
4158 follows:<itemizedlist>
4159 <listitem>
4160 <para><xref linkend="IMachine__export"
4161 xreflabel="IMachine::export()" /> received an extra parameter
4162 <computeroutput>location</computeroutput>, which is used to
4163 decide for the disk naming.</para>
4164 </listitem>
4165
4166 <listitem>
4167 <para><xref linkend="IAppliance__write"
4168 xreflabel="IAppliance::write()" /> received an extra parameter
4169 <computeroutput>manifest</computeroutput>, which can suppress
4170 creating the manifest file on export.</para>
4171 </listitem>
4172
4173 <listitem>
4174 <para><xref linkend="IVFSExplorer__entryList"
4175 xreflabel="IVFSExplorer::entryList()" /> received two extra
4176 parameters <computeroutput>sizes</computeroutput> and
4177 <computeroutput>modes</computeroutput>, which contains the
4178 sizes (in bytes) and the file access modes (in octal form) of
4179 the returned files.</para>
4180 </listitem>
4181 </itemizedlist></para>
4182 </listitem>
4183
4184 <listitem>
4185 <para>Support for remote desktop access to virtual machines has been
4186 cleaned up to allow third party implementations of the remote
4187 desktop server. This is called the VirtualBox Remote Desktop
4188 Extension (VRDE) and can be added to VirtualBox by installing the
4189 corresponding extension package; see the VirtualBox User Manual for
4190 details.</para>
4191
4192 <para>The following API changes were made to support the VRDE
4193 interface: <itemizedlist>
4194 <listitem>
4195 <para><computeroutput>IVRDPServer</computeroutput> has been
4196 renamed to <xref linkend="IVRDEServer"
4197 xreflabel="IVRDEServer" />.</para>
4198 </listitem>
4199
4200 <listitem>
4201 <para><computeroutput>IRemoteDisplayInfo</computeroutput> has
4202 been renamed to <xref linkend="IVRDEServerInfo"
4203 xreflabel="IVRDEServerInfo" />.</para>
4204 </listitem>
4205
4206 <listitem>
4207 <para><xref linkend="IMachine__VRDEServer"
4208 xreflabel="IMachine::VRDEServer" /> replaces
4209 <computeroutput>VRDPServer.</computeroutput></para>
4210 </listitem>
4211
4212 <listitem>
4213 <para><xref linkend="IConsole__VRDEServerInfo"
4214 xreflabel="IConsole::VRDEServerInfo" /> replaces
4215 <computeroutput>RemoteDisplayInfo</computeroutput>.</para>
4216 </listitem>
4217
4218 <listitem>
4219 <para><xref linkend="ISystemProperties__VRDEAuthLibrary"
4220 xreflabel="ISystemProperties::VRDEAuthLibrary" /> replaces
4221 <computeroutput>RemoteDisplayAuthLibrary</computeroutput>.</para>
4222 </listitem>
4223
4224 <listitem>
4225 <para>The following methods have been implemented in
4226 <computeroutput>IVRDEServer</computeroutput> to support
4227 generic VRDE properties: <itemizedlist>
4228 <listitem>
4229 <para><xref linkend="IVRDEServer__setVRDEProperty"
4230 xreflabel="IVRDEServer::setVRDEProperty" /></para>
4231 </listitem>
4232
4233 <listitem>
4234 <para><xref linkend="IVRDEServer__getVRDEProperty"
4235 xreflabel="IVRDEServer::getVRDEProperty" /></para>
4236 </listitem>
4237
4238 <listitem>
4239 <para><xref linkend="IVRDEServer__VRDEProperties"
4240 xreflabel="IVRDEServer::VRDEProperties" /></para>
4241 </listitem>
4242 </itemizedlist></para>
4243
4244 <para>A few implementation-specific attributes of the old
4245 <computeroutput>IVRDPServer</computeroutput> interface have
4246 been removed and replaced with properties: <itemizedlist>
4247 <listitem>
4248 <para><computeroutput>IVRDPServer::Ports</computeroutput>
4249 has been replaced with the
4250 <computeroutput>"TCP/Ports"</computeroutput> property.
4251 The property value is a string, which contains a
4252 comma-separated list of ports or ranges of ports. Use a
4253 dash between two port numbers to specify a range.
4254 Example:
4255 <computeroutput>"5000,5010-5012"</computeroutput></para>
4256 </listitem>
4257
4258 <listitem>
4259 <para><computeroutput>IVRDPServer::NetAddress</computeroutput>
4260 has been replaced with the
4261 <computeroutput>"TCP/Address"</computeroutput> property.
4262 The property value is an IP address string. Example:
4263 <computeroutput>"127.0.0.1"</computeroutput></para>
4264 </listitem>
4265
4266 <listitem>
4267 <para><computeroutput>IVRDPServer::VideoChannel</computeroutput>
4268 has been replaced with the
4269 <computeroutput>"VideoChannel/Enabled"</computeroutput>
4270 property. The property value is either
4271 <computeroutput>"true"</computeroutput> or
4272 <computeroutput>"false"</computeroutput></para>
4273 </listitem>
4274
4275 <listitem>
4276 <para><computeroutput>IVRDPServer::VideoChannelQuality</computeroutput>
4277 has been replaced with the
4278 <computeroutput>"VideoChannel/Quality"</computeroutput>
4279 property. The property value is a string which contain a
4280 decimal number in range 10..100. Invalid values are
4281 ignored and the quality is set to the default value 75.
4282 Example: <computeroutput>"50"</computeroutput></para>
4283 </listitem>
4284 </itemizedlist></para>
4285 </listitem>
4286 </itemizedlist></para>
4287 </listitem>
4288
4289 <listitem>
4290 <para>The VirtualBox external authentication module interface has
4291 been updated and made more generic. Because of that,
4292 <computeroutput>VRDPAuthType</computeroutput> enumeration has been
4293 renamed to <xref linkend="AuthType" xreflabel="AuthType" />.</para>
4294 </listitem>
4295 </itemizedlist>
4296 </sect1>
4297
4298 <sect1>
4299 <title>Incompatible API changes with version 3.2</title>
4300
4301 <itemizedlist>
4302 <listitem>
4303 <para>The following interfaces were renamed for consistency:
4304 <itemizedlist>
4305 <listitem>
4306 <para>IMachine::getCpuProperty() is now <xref
4307 linkend="IMachine__getCPUProperty"
4308 xreflabel="IMachine::getCPUProperty()" />;</para>
4309 </listitem>
4310
4311 <listitem>
4312 <para>IMachine::setCpuProperty() is now <xref
4313 linkend="IMachine__setCPUProperty"
4314 xreflabel="IMachine::setCPUProperty()" />;</para>
4315 </listitem>
4316
4317 <listitem>
4318 <para>IMachine::getCpuIdLeaf() is now <xref
4319 linkend="IMachine__getCPUIDLeaf"
4320 xreflabel="IMachine::getCPUIDLeaf()" />;</para>
4321 </listitem>
4322
4323 <listitem>
4324 <para>IMachine::setCpuIdLeaf() is now <xref
4325 linkend="IMachine__setCPUIDLeaf"
4326 xreflabel="IMachine::setCPUIDLeaf()" />;</para>
4327 </listitem>
4328
4329 <listitem>
4330 <para>IMachine::removeCpuIdLeaf() is now <xref
4331 linkend="IMachine__removeCPUIDLeaf"
4332 xreflabel="IMachine::removeCPUIDLeaf()" />;</para>
4333 </listitem>
4334
4335 <listitem>
4336 <para>IMachine::removeAllCpuIdLeafs() is now <xref
4337 linkend="IMachine__removeAllCPUIDLeaves"
4338 xreflabel="IMachine::removeAllCPUIDLeaves()" />;</para>
4339 </listitem>
4340
4341 <listitem>
4342 <para>the CpuPropertyType enum is now <xref
4343 linkend="CPUPropertyType"
4344 xreflabel="CPUPropertyType" />.</para>
4345 </listitem>
4346
4347 <listitem>
4348 <para>IVirtualBoxCallback::onSnapshotDiscarded() is now
4349 IVirtualBoxCallback::onSnapshotDeleted.</para>
4350 </listitem>
4351 </itemizedlist></para>
4352 </listitem>
4353
4354 <listitem>
4355 <para>When creating a VM configuration with <xref
4356 linkend="IVirtualBox__createMachine"
4357 xreflabel="IVirtualBox::createMachine" />) it is now possible to
4358 ignore existing configuration files which would previously have
4359 caused a failure. For this the
4360 <computeroutput>override</computeroutput> parameter was
4361 added.</para>
4362 </listitem>
4363
4364 <listitem>
4365 <para>Deleting snapshots via <xref
4366 linkend="IConsole__deleteSnapshot"
4367 xreflabel="IConsole::deleteSnapshot()" /> is now possible while the
4368 associated VM is running in almost all cases. The API is unchanged,
4369 but client code that verifies machine states to determine whether
4370 snapshots can be deleted may need to be adjusted.</para>
4371 </listitem>
4372
4373 <listitem>
4374 <para>The IoBackendType enumeration was replaced with a boolean flag
4375 (see <xref linkend="IStorageController__useHostIOCache"
4376 xreflabel="IStorageController::useHostIOCache" />).</para>
4377 </listitem>
4378
4379 <listitem>
4380 <para>To address multi-monitor support, the following APIs were
4381 extended to require an additional
4382 <computeroutput>screenId</computeroutput> parameter: <itemizedlist>
4383 <listitem>
4384 <para><xref linkend="IMachine__querySavedThumbnailSize"
4385 xreflabel="IMachine::querySavedThumbnailSize()" /></para>
4386 </listitem>
4387
4388 <listitem>
4389 <para><xref linkend="IMachine__readSavedThumbnailToArray"
4390 xreflabel="IMachine::readSavedThumbnailToArray()" /></para>
4391 </listitem>
4392
4393 <listitem>
4394 <para><xref linkend="IMachine__querySavedScreenshotPNGSize"
4395 xreflabel="IMachine::querySavedScreenshotPNGSize()" /></para>
4396 </listitem>
4397
4398 <listitem>
4399 <para><xref linkend="IMachine__readSavedScreenshotPNGToArray"
4400 xreflabel="IMachine::readSavedScreenshotPNGToArray()" /></para>
4401 </listitem>
4402 </itemizedlist></para>
4403 </listitem>
4404
4405 <listitem>
4406 <para>The <computeroutput>shape</computeroutput> parameter of
4407 IConsoleCallback::onMousePointerShapeChange was changed from a
4408 implementation-specific pointer to a safearray, enabling scripting
4409 languages to process pointer shapes.</para>
4410 </listitem>
4411 </itemizedlist>
4412 </sect1>
4413
4414 <sect1>
4415 <title>Incompatible API changes with version 3.1</title>
4416
4417 <itemizedlist>
4418 <listitem>
4419 <para>Due to the new flexibility in medium attachments that was
4420 introduced with version 3.1 (in particular, full flexibility with
4421 attaching CD/DVD drives to arbitrary controllers), we seized the
4422 opportunity to rework all interfaces dealing with storage media to
4423 make the API more flexible as well as logical. The <xref
4424 linkend="IStorageController" xreflabel="IStorageController" />,
4425 <xref linkend="IMedium" xreflabel="IMedium" />, <xref
4426 linkend="IMediumAttachment" xreflabel="IMediumAttachment" /> and,
4427 <xref linkend="IMachine" xreflabel="IMachine" /> interfaces were
4428 affected the most. Existing code using them to configure storage and
4429 media needs to be carefully checked.</para>
4430
4431 <para>All media (hard disks, floppies and CDs/DVDs) are now
4432 uniformly handled through the <xref linkend="IMedium"
4433 xreflabel="IMedium" /> interface. The device-specific interfaces
4434 (<code>IHardDisk</code>, <code>IDVDImage</code>,
4435 <code>IHostDVDDrive</code>, <code>IFloppyImage</code> and
4436 <code>IHostFloppyDrive</code>) have been merged into IMedium; CD/DVD
4437 and floppy media no longer need special treatment. The device type
4438 of a medium determines in which context it can be used. Some
4439 functionality was moved to the other storage-related
4440 interfaces.</para>
4441
4442 <para><code>IMachine::attachHardDisk</code> and similar methods have
4443 been renamed and generalized to deal with any type of drive and
4444 medium. <xref linkend="IMachine__attachDevice"
4445 xreflabel="IMachine::attachDevice()" /> is the API method for adding
4446 any drive to a storage controller. The floppy and DVD/CD drives are
4447 no longer handled specially, and that means you can have more than
4448 one of them. As before, drives can only be changed while the VM is
4449 powered off. Mounting (or unmounting) removable media at runtime is
4450 possible with <xref linkend="IMachine__mountMedium"
4451 xreflabel="IMachine::mountMedium()" />.</para>
4452
4453 <para>Newly created virtual machines have no storage controllers
4454 associated with them. Even the IDE Controller needs to be created
4455 explicitly. The floppy controller is now visible as a separate
4456 controller, with a new storage bus type. For each storage bus type
4457 you can query the device types which can be attached, so that it is
4458 not necessary to hardcode any attachment rules.</para>
4459
4460 <para>This required matching changes e.g. in the callback interfaces
4461 (the medium specific change notification was replaced by a generic
4462 medium change notification) and removing associated enums (e.g.
4463 <code>DriveState</code>). In many places the incorrect use of the
4464 plural form "media" was replaced by "medium", to improve
4465 consistency.</para>
4466 </listitem>
4467
4468 <listitem>
4469 <para>Reading the <xref linkend="IMedium__state"
4470 xreflabel="IMedium::state" xrefstyle="" /> attribute no longer
4471 automatically performs an accessibility check; a new method <xref
4472 linkend="IMedium__refreshState"
4473 xreflabel="IMedium::refreshState()" /> does this. The attribute only
4474 returns the state any more.</para>
4475 </listitem>
4476
4477 <listitem>
4478 <para>There were substantial changes related to snapshots, triggered
4479 by the "branched snapshots" functionality introduced with version
4480 3.1. IConsole::discardSnapshot was renamed to <xref
4481 linkend="IConsole__deleteSnapshot"
4482 xreflabel="IConsole::deleteSnapshot()" />.
4483 IConsole::discardCurrentState and
4484 IConsole::discardCurrentSnapshotAndState were removed; corresponding
4485 new functionality is in <xref linkend="IConsole__restoreSnapshot"
4486 xreflabel="IConsole::restoreSnapshot()" />. Also, when <xref
4487 linkend="IConsole__takeSnapshot"
4488 xreflabel="IConsole::takeSnapshot()" /> is called on a running
4489 virtual machine, a live snapshot will be created. The old behavior
4490 was to temporarily pause the virtual machine while creating an
4491 online snapshot.</para>
4492 </listitem>
4493
4494 <listitem>
4495 <para>The <computeroutput>IVRDPServer</computeroutput>,
4496 <computeroutput>IRemoteDisplayInfo"</computeroutput> and
4497 <computeroutput>IConsoleCallback</computeroutput> interfaces were
4498 changed to reflect VRDP server ability to bind to one of available
4499 ports from a list of ports.</para>
4500
4501 <para>The <computeroutput>IVRDPServer::port</computeroutput>
4502 attribute has been replaced with
4503 <computeroutput>IVRDPServer::ports</computeroutput>, which is a
4504 comma-separated list of ports or ranges of ports.</para>
4505
4506 <para>An <computeroutput>IRemoteDisplayInfo::port"</computeroutput>
4507 attribute has been added for querying the actual port VRDP server
4508 listens on.</para>
4509
4510 <para>An IConsoleCallback::onRemoteDisplayInfoChange() notification
4511 callback has been added.</para>
4512 </listitem>
4513
4514 <listitem>
4515 <para>The parameter lists for the following functions were
4516 modified:<itemizedlist>
4517 <listitem>
4518 <para><xref linkend="IHost__removeHostOnlyNetworkInterface"
4519 xreflabel="IHost::removeHostOnlyNetworkInterface()" /></para>
4520 </listitem>
4521
4522 <listitem>
4523 <para><xref linkend="IHost__removeUSBDeviceFilter"
4524 xreflabel="IHost::removeUSBDeviceFilter()" /></para>
4525 </listitem>
4526 </itemizedlist></para>
4527 </listitem>
4528
4529 <listitem>
4530 <para>In the OOWS bindings for JAX-WS, the behavior of structures
4531 changed: for one, we implemented natural structures field access so
4532 you can just call a "get" method to obtain a field. Secondly,
4533 setters in structures were disabled as they have no expected effect
4534 and were at best misleading.</para>
4535 </listitem>
4536 </itemizedlist>
4537 </sect1>
4538
4539 <sect1>
4540 <title>Incompatible API changes with version 3.0</title>
4541
4542 <itemizedlist>
4543 <listitem>
4544 <para>In the object-oriented web service bindings for JAX-WS, proper
4545 inheritance has been introduced for some classes, so explicit
4546 casting is no longer needed to call methods from a parent class. In
4547 particular, IHardDisk and other classes now properly derive from
4548 <xref linkend="IMedium" xreflabel="IMedium" />.</para>
4549 </listitem>
4550
4551 <listitem>
4552 <para>All object identifiers (machines, snapshots, disks, etc)
4553 switched from GUIDs to strings (now still having string
4554 representation of GUIDs inside). As a result, no particular internal
4555 structure can be assumed for object identifiers; instead, they
4556 should be treated as opaque unique handles. This change mostly
4557 affects Java and C++ programs; for other languages, GUIDs are
4558 transparently converted to strings.</para>
4559 </listitem>
4560
4561 <listitem>
4562 <para>The uses of NULL strings have been changed greatly. All out
4563 parameters now use empty strings to signal a null value. For in
4564 parameters both the old NULL and empty string is allowed. This
4565 change was necessary to support more client bindings, especially
4566 using the web service API. Many of them either have no special NULL
4567 value or have trouble dealing with it correctly in the respective
4568 library code.</para>
4569 </listitem>
4570
4571 <listitem>
4572 <para>Accidentally, the <code>TSBool</code> interface still appeared
4573 in 3.0.0, and was removed in 3.0.2. This is an SDK bug, do not use
4574 the SDK for VirtualBox 3.0.0 for developing clients.</para>
4575 </listitem>
4576
4577 <listitem>
4578 <para>The type of <xref linkend="IVirtualBoxErrorInfo__resultCode"
4579 xreflabel="IVirtualBoxErrorInfo::resultCode" /> changed from
4580 <computeroutput>result</computeroutput> to
4581 <computeroutput>long</computeroutput>.</para>
4582 </listitem>
4583
4584 <listitem>
4585 <para>The parameter list of IVirtualBox::openHardDisk was
4586 changed.</para>
4587 </listitem>
4588
4589 <listitem>
4590 <para>The method IConsole::discardSavedState was renamed to
4591 IConsole::forgetSavedState, and a parameter was added.</para>
4592 </listitem>
4593
4594 <listitem>
4595 <para>The method IConsole::powerDownAsync was renamed to <xref
4596 linkend="IConsole__powerDown" xreflabel="IConsole::powerDown" />,
4597 and the previous method with that name was deleted. So effectively a
4598 parameter was added.</para>
4599 </listitem>
4600
4601 <listitem>
4602 <para>In the <xref linkend="IFramebuffer"
4603 xreflabel="IFramebuffer" /> interface, the following were
4604 removed:<itemizedlist>
4605 <listitem>
4606 <para>the <computeroutput>operationSupported</computeroutput>
4607 attribute;</para>
4608
4609 <para>(as a result, the
4610 <computeroutput>FramebufferAccelerationOperation</computeroutput>
4611 enum was no longer needed and removed as well);</para>
4612 </listitem>
4613
4614 <listitem>
4615 <para>the <computeroutput>solidFill()</computeroutput>
4616 method;</para>
4617 </listitem>
4618
4619 <listitem>
4620 <para>the <computeroutput>copyScreenBits()</computeroutput>
4621 method.</para>
4622 </listitem>
4623 </itemizedlist></para>
4624 </listitem>
4625
4626 <listitem>
4627 <para>In the <xref linkend="IDisplay" xreflabel="IDisplay" />
4628 interface, the following were removed:<itemizedlist>
4629 <listitem>
4630 <para>the
4631 <computeroutput>setupInternalFramebuffer()</computeroutput>
4632 method;</para>
4633 </listitem>
4634
4635 <listitem>
4636 <para>the <computeroutput>lockFramebuffer()</computeroutput>
4637 method;</para>
4638 </listitem>
4639
4640 <listitem>
4641 <para>the <computeroutput>unlockFramebuffer()</computeroutput>
4642 method;</para>
4643 </listitem>
4644
4645 <listitem>
4646 <para>the
4647 <computeroutput>registerExternalFramebuffer()</computeroutput>
4648 method.</para>
4649 </listitem>
4650 </itemizedlist></para>
4651 </listitem>
4652 </itemizedlist>
4653 </sect1>
4654
4655 <sect1>
4656 <title>Incompatible API changes with version 2.2</title>
4657
4658 <itemizedlist>
4659 <listitem>
4660 <para>Added explicit version number into JAX-WS Java package names,
4661 such as <computeroutput>org.virtualbox_2_2</computeroutput>,
4662 allowing connect to multiple VirtualBox clients from single Java
4663 application.</para>
4664 </listitem>
4665
4666 <listitem>
4667 <para>The interfaces having a "2" suffix attached to them with
4668 version 2.1 were renamed again to have that suffix removed. This
4669 time around, this change involves only the name, there are no
4670 functional differences.</para>
4671
4672 <para>As a result, IDVDImage2 is now IDVDImage; IHardDisk2 is now
4673 IHardDisk; IHardDisk2Attachment is now IHardDiskAttachment.</para>
4674
4675 <para>Consequentially, all related methods and attributes that had a
4676 "2" suffix have been renamed; for example, IMachine::attachHardDisk2
4677 now becomes IMachine::attachHardDisk().</para>
4678 </listitem>
4679
4680 <listitem>
4681 <para>IVirtualBox::openHardDisk has an extra parameter for opening a
4682 disk read/write or read-only.</para>
4683 </listitem>
4684
4685 <listitem>
4686 <para>The remaining collections were replaced by more performant
4687 safe-arrays. This affects the following collections:</para>
4688
4689 <itemizedlist>
4690 <listitem>
4691 <para>IGuestOSTypeCollection</para>
4692 </listitem>
4693
4694 <listitem>
4695 <para>IHostDVDDriveCollection</para>
4696 </listitem>
4697
4698 <listitem>
4699 <para>IHostFloppyDriveCollection</para>
4700 </listitem>
4701
4702 <listitem>
4703 <para>IHostUSBDeviceCollection</para>
4704 </listitem>
4705
4706 <listitem>
4707 <para>IHostUSBDeviceFilterCollection</para>
4708 </listitem>
4709
4710 <listitem>
4711 <para>IProgressCollection</para>
4712 </listitem>
4713
4714 <listitem>
4715 <para>ISharedFolderCollection</para>
4716 </listitem>
4717
4718 <listitem>
4719 <para>ISnapshotCollection</para>
4720 </listitem>
4721
4722 <listitem>
4723 <para>IUSBDeviceCollection</para>
4724 </listitem>
4725
4726 <listitem>
4727 <para>IUSBDeviceFilterCollection</para>
4728 </listitem>
4729 </itemizedlist>
4730 </listitem>
4731
4732 <listitem>
4733 <para>Since "Host Interface Networking" was renamed to "bridged
4734 networking" and host-only networking was introduced, all associated
4735 interfaces needed renaming as well. In detail:</para>
4736
4737 <itemizedlist>
4738 <listitem>
4739 <para>The HostNetworkInterfaceType enum has been renamed to
4740 <xref linkend="HostNetworkInterfaceMediumType"
4741 xreflabel="HostNetworkInterfaceMediumType" /></para>
4742 </listitem>
4743
4744 <listitem>
4745 <para>The IHostNetworkInterface::type attribute has been renamed
4746 to <xref linkend="IHostNetworkInterface__mediumType"
4747 xreflabel="IHostNetworkInterface::mediumType" /></para>
4748 </listitem>
4749
4750 <listitem>
4751 <para>INetworkAdapter::attachToHostInterface() has been renamed
4752 to INetworkAdapter::attachToBridgedInterface</para>
4753 </listitem>
4754
4755 <listitem>
4756 <para>In the IHost interface, createHostNetworkInterface() has
4757 been renamed to <xref
4758 linkend="IHost__createHostOnlyNetworkInterface"
4759 xreflabel="createHostOnlyNetworkInterface()" /></para>
4760 </listitem>
4761
4762 <listitem>
4763 <para>Similarly, removeHostNetworkInterface() has been renamed
4764 to <xref linkend="IHost__removeHostOnlyNetworkInterface"
4765 xreflabel="removeHostOnlyNetworkInterface()" /></para>
4766 </listitem>
4767 </itemizedlist>
4768 </listitem>
4769 </itemizedlist>
4770 </sect1>
4771
4772 <sect1>
4773 <title>Incompatible API changes with version 2.1</title>
4774
4775 <itemizedlist>
4776 <listitem>
4777 <para>With VirtualBox 2.1, error codes were added to many error
4778 infos that give the caller a machine-readable (numeric) feedback in
4779 addition to the error string that has always been available. This is
4780 an ongoing process, and future versions of this SDK reference will
4781 document the error codes for each method call.</para>
4782 </listitem>
4783
4784 <listitem>
4785 <para>The hard disk and other media interfaces were completely
4786 redesigned. This was necessary to account for the support of VMDK,
4787 VHD and other image types; since backwards compatibility had to be
4788 broken anyway, we seized the moment to redesign the interfaces in a
4789 more logical way.</para>
4790
4791 <itemizedlist>
4792 <listitem>
4793 <para>Previously, the old IHardDisk interface had several
4794 derivatives called IVirtualDiskImage, IVMDKImage, IVHDImage,
4795 IISCSIHardDisk and ICustomHardDisk for the various disk formats
4796 supported by VirtualBox. The new IHardDisk2 interface that comes
4797 with version 2.1 now supports all hard disk image formats
4798 itself.</para>
4799 </listitem>
4800
4801 <listitem>
4802 <para>IHardDiskFormat is a new interface to describe the
4803 available back-ends for hard disk images (e.g. VDI, VMDK, VHD or
4804 iSCSI). The IHardDisk2::format attribute can be used to find out
4805 the back-end that is in use for a particular hard disk image.
4806 ISystemProperties::hardDiskFormats[] contains a list of all
4807 back-ends supported by the system. <xref
4808 linkend="ISystemProperties__defaultHardDiskFormat"
4809 xreflabel="ISystemProperties::defaultHardDiskFormat" /> contains
4810 the default system format.</para>
4811 </listitem>
4812
4813 <listitem>
4814 <para>In addition, the new <xref linkend="IMedium"
4815 xreflabel="IMedium" /> interface is a generic interface for hard
4816 disk, DVD and floppy images that contains the attributes and
4817 methods shared between them. It can be considered a parent class
4818 of the more specific interfaces for those images, which are now
4819 IHardDisk2, IDVDImage2 and IFloppyImage2.</para>
4820
4821 <para>In each case, the "2" versions of these interfaces replace
4822 the earlier versions that did not have the "2" suffix.
4823 Previously, the IDVDImage and IFloppyImage interfaces were
4824 entirely unrelated to IHardDisk.</para>
4825 </listitem>
4826
4827 <listitem>
4828 <para>As a result, all parts of the API that previously
4829 referenced IHardDisk, IDVDImage or IFloppyImage or any of the
4830 old subclasses are gone and will have replacements that use
4831 IHardDisk2, IDVDImage2 and IFloppyImage2; see, for example,
4832 IMachine::attachHardDisk2.</para>
4833 </listitem>
4834
4835 <listitem>
4836 <para>In particular, the IVirtualBox::hardDisks2 array replaces
4837 the earlier IVirtualBox::hardDisks collection.</para>
4838 </listitem>
4839 </itemizedlist>
4840 </listitem>
4841
4842 <listitem>
4843 <para><xref linkend="IGuestOSType" xreflabel="IGuestOSType" /> was
4844 extended to group operating systems into families and for 64-bit
4845 support.</para>
4846 </listitem>
4847
4848 <listitem>
4849 <para>The <xref linkend="IHostNetworkInterface"
4850 xreflabel="IHostNetworkInterface" /> interface was completely
4851 rewritten to account for the changes in how Host Interface
4852 Networking is now implemented in VirtualBox 2.1.</para>
4853 </listitem>
4854
4855 <listitem>
4856 <para>The IVirtualBox::machines2[] array replaces the former
4857 IVirtualBox::machines collection.</para>
4858 </listitem>
4859
4860 <listitem>
4861 <para>Added <xref linkend="IHost__getProcessorFeature"
4862 xreflabel="IHost::getProcessorFeature()" /> and <xref
4863 linkend="ProcessorFeature" xreflabel="ProcessorFeature" />
4864 enumeration.</para>
4865 </listitem>
4866
4867 <listitem>
4868 <para>The parameter list for <xref
4869 linkend="IVirtualBox__createMachine"
4870 xreflabel="IVirtualBox::createMachine()" /> was modified.</para>
4871 </listitem>
4872
4873 <listitem>
4874 <para>Added IMachine::pushGuestProperty.</para>
4875 </listitem>
4876
4877 <listitem>
4878 <para>New attributes in IMachine: <xref
4879 linkend="IMachine__accelerate3DEnabled"
4880 xreflabel="accelerate3DEnabled" />, HWVirtExVPIDEnabled, <xref
4881 linkend="IMachine__guestPropertyNotificationPatterns"
4882 xreflabel="guestPropertyNotificationPatterns" />, <xref
4883 linkend="IMachine__CPUCount" xreflabel="CPUCount" />.</para>
4884 </listitem>
4885
4886 <listitem>
4887 <para>Added <xref linkend="IConsole__powerUpPaused"
4888 xreflabel="IConsole::powerUpPaused()" /> and <xref
4889 linkend="IConsole__getGuestEnteredACPIMode"
4890 xreflabel="IConsole::getGuestEnteredACPIMode()" />.</para>
4891 </listitem>
4892
4893 <listitem>
4894 <para>Removed ResourceUsage enumeration.</para>
4895 </listitem>
4896 </itemizedlist>
4897 </sect1>
4898 </chapter>
4899</book>
4900<!-- vim: set shiftwidth=2 tabstop=2 expandtab: -->
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