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4
5<chapter id='dev-manual-qemu'>
6
7<title>Using the Quick EMUlator (QEMU)</title>
8
9<para>
10 Quick EMUlator (QEMU) is an Open Source project the Yocto Project uses
11 as part of its development "tool set".
12 As such, the information in this chapter is limited to the
13 Yocto Project integration of QEMU and not QEMU in general.
14 For official information and documentation on QEMU, see the
15 following references:
16 <itemizedlist>
17 <listitem><para><emphasis><ulink url='http://wiki.qemu.org/Main_Page'>QEMU Website</ulink>:</emphasis>
18 The official website for the QEMU Open Source project.
19 </para></listitem>
20 <listitem><para><emphasis><ulink url='http://wiki.qemu.org/Manual'>Documentation</ulink>:</emphasis>
21 The QEMU user manual.
22 </para></listitem>
23 </itemizedlist>
24</para>
25
26<para>
27 This chapter provides an overview of the Yocto Project's integration of
28 QEMU, a description of how you use QEMU and its various options, running
29 under a Network File System (NFS) server, and a few tips and tricks you
30 might find helpful when using QEMU.
31</para>
32
33<section id='qemu-overview'>
34 <title>Overview</title>
35
36 <para>
37 Within the context of the Yocto Project, QEMU is an
38 emulator and virtualization machine that allows you to run a complete
39 image you have built using the Yocto Project as just another task
40 on your build system.
41 QEMU is useful for running and testing images and applications on
42 supported Yocto Project architectures without having actual hardware.
43 Among other things, the Yocto Project uses QEMU to run automated
44 Quality Assurance (QA) tests on final images shipped with each
45 release.
46 </para>
47
48 <para>
49 QEMU is made available with the Yocto Project a number of ways.
50 The easiest and recommended method for getting QEMU is to run the
51 ADT installer. For more information on how to make sure you have
52 QEMU available, see the
53 "<ulink url='&YOCTO_DOCS_ADT_URL;#the-qemu-emulator'>The QEMU Emulator</ulink>"
54 section in the Yocto Project Application Developer's Guide.
55 </para>
56</section>
57
58<section id='qemu-running-qemu'>
59 <title>Running QEMU</title>
60
61 <para>
62 Running QEMU involves having your build environment set up, having the
63 right artifacts available, and understanding how to use the many
64 options that are available to you when you start QEMU using the
65 <filename>runqemu</filename> command.
66 </para>
67
68 <section id='qemu-setting-up-the-environment'>
69 <title>Setting Up the Environment</title>
70
71 <para>
72 You run QEMU in the same environment from which you run BitBake.
73 This means you need to source a build environment script (i.e.
74 <ulink url='&YOCTO_DOCS_REF_URL;#structure-core-script'><filename>&OE_INIT_FILE;</filename></ulink>
75 or
76 <ulink url='&YOCTO_DOCS_REF_URL;#structure-memres-core-script'><filename>oe-init-build-env-memres</filename></ulink>).
77 </para>
78 </section>
79
80 <section id='qemu-using-the-runqemu-command'>
81 <title>Using the <filename>runqemu</filename> Command</title>
82
83 <para>
84 The basic <filename>runqemu</filename> command syntax is as
85 follows:
86 <literallayout class='monospaced'>
87 $ runqemu [<replaceable>option</replaceable> ] [...]
88 </literallayout>
89 Based on what you provide on the command line,
90 <filename>runqemu</filename> does a good job of figuring out what
91 you are trying to do.
92 For example, by default, QEMU looks for the most recently built
93 image according to the timestamp when it needs to look for an
94 image.
95 Minimally, through the use of options, you must provide either
96 a machine name, a virtual machine image
97 (<filename>*.vmdk</filename>), or a kernel image
98 (<filename>*.bin</filename>).
99 </para>
100
101 <para>
102 Following is a description of <filename>runqemu</filename>
103 options you can provide on the command line:
104 <note><title>Tip</title>
105 If you do provide some "illegal" option combination or perhaps
106 you do not provide enough in the way of options,
107 <filename>runqemu</filename> provides appropriate error
108 messaging to help you correct the problem.
109 </note>
110 <itemizedlist>
111 <listitem><para><replaceable>QEMUARCH</replaceable>:
112 The QEMU machine architecture, which must be "qemux86",
113 "qemux86_64", "qemuarm", "qemumips", "qemumipsel",
114 “qemumips64", "qemush4", "qemuppc", "qemumicroblaze",
115 or "qemuzynq".
116 </para></listitem>
117 <listitem><para><filename><replaceable>VM</replaceable></filename>:
118 The virtual machine image, which must be a
119 <filename>.vmdk</filename> file.
120 Use this option when you want to boot a
121 <filename>.vmdk</filename> image.
122 The image filename you provide must contain one of the
123 following strings: "qemux86-64", "qemux86", "qemuarm",
124 "qemumips64", "qemumips", "qemuppc", or "qemush4".
125 </para></listitem>
126 <listitem><para><replaceable>ROOTFS</replaceable>:
127 A root filesystem that has one of the following
128 filetype extensions: "ext2", "ext3", "ext4", "jffs2",
129 "nfs", or "btrfs".
130 If the filename you provide for this option uses “nfs”, it
131 must provide an explicit root filesystem path.
132 </para></listitem>
133 <listitem><para><replaceable>KERNEL</replaceable>:
134 A kernel image, which is a <filename>.bin</filename> file.
135 When you provide a <filename>.bin</filename> file,
136 <filename>runqemu</filename> detects it and assumes the
137 file is a kernel image.
138 </para></listitem>
139 <listitem><para><replaceable>MACHINE</replaceable>:
140 The architecture of the QEMU machine, which must be one
141 of the following: "qemux86",
142 "qemux86-64", "qemuarm", "qemumips", "qemumipsel",
143 “qemumips64", "qemush4", "qemuppc", "qemumicroblaze",
144 or "qemuzynq".
145 The <replaceable>MACHINE</replaceable> and
146 <replaceable>QEMUARCH</replaceable> options are basically
147 identical.
148 If you do not provide a <replaceable>MACHINE</replaceable>
149 option, <filename>runqemu</filename> tries to determine
150 it based on other options.
151 </para></listitem>
152 <listitem><para><filename>ramfs</filename>:
153 Indicates you are booting an initial RAM disk (initramfs)
154 image, which means the <filename>FSTYPE</filename> is
155 <filename>cpio.gz</filename>.
156 </para></listitem>
157 <listitem><para><filename>iso</filename>:
158 Indicates you are booting an ISO image, which means the
159 <filename>FSTYPE</filename> is
160 <filename>.iso</filename>.
161 </para></listitem>
162 <listitem><para><filename>nographic</filename>:
163 Disables the video console, which sets the console to
164 "ttys0".
165 </para></listitem>
166 <listitem><para><filename>serial</filename>:
167 Enables a serial console on
168 <filename>/dev/ttyS0</filename>.
169 </para></listitem>
170 <listitem><para><filename>biosdir</filename>:
171 Establishes a custom directory for BIOS, VGA BIOS and
172 keymaps.
173 </para></listitem>
174 <listitem><para><filename>biosfilename</filename>:
175 Establishes a custom BIOS name.
176 </para></listitem>
177 <listitem><para><filename>qemuparams=\"<replaceable>xyz</replaceable>\"</filename>:
178 Specifies custom QEMU parameters.
179 Use this option to pass options other than the simple
180 "kvm" and "serial" options.
181 </para></listitem>
182 <listitem><para><filename>bootparams=\"<replaceable>xyz</replaceable>\"</filename>:
183 Specifies custom boot parameters for the kernel.
184 </para></listitem>
185 <listitem><para><filename>audio</filename>:
186 Enables audio in QEMU.
187 The <replaceable>MACHINE</replaceable> option must be
188 either "qemux86" or "qemux86-64" in order for audio to be
189 enabled.
190 Additionally, the <filename>snd_intel8x0</filename>
191 or <filename>snd_ens1370</filename> driver must be
192 installed in linux guest.
193 </para></listitem>
194 <listitem><para><filename>slirp</filename>:
195 Enables "slirp" networking, which is a different way
196 of networking that does not need root access
197 but also is not as easy to use or comprehensive
198 as the default.
199 </para></listitem>
200 <listitem><para><filename>kvm</filename>:
201 Enables KVM when running "qemux86" or "qemux86-64"
202 QEMU architectures.
203 For KVM to work, all the following conditions must be met:
204 <itemizedlist>
205 <listitem><para>
206 Your <replaceable>MACHINE</replaceable> must be either
207 "qemux86" or "qemux86-64".
208 </para></listitem>
209 <listitem><para>
210 Your build host has to have the KVM modules
211 installed, which are
212 <filename>/dev/kvm</filename>.
213 </para></listitem>
214 <listitem><para>
215 Your build host has to have virtio net device, which
216 are <filename>/dev/vhost-net</filename>.
217 </para></listitem>
218 <listitem><para>
219 The build host <filename>/dev/kvm</filename>
220 directory has to be both writable and readable.
221 </para></listitem>
222 <listitem><para>
223 The build host <filename>/dev/vhost-net</filename>
224 directory has to be either readable or writable
225 and “slirp-enabled”.
226 </para></listitem>
227 </itemizedlist>
228 </para></listitem>
229 <listitem><para><filename>publicvnc</filename>:
230 Enables a VNC server open to all hosts.
231 </para></listitem>
232 </itemizedlist>
233 </para>
234
235 <para>
236 For further understanding regarding option use with
237 <filename>runqemu</filename>, consider some examples.
238 </para>
239
240 <para>
241 This example starts QEMU with
242 <replaceable>MACHINE</replaceable> set to "qemux86".
243 Assuming a standard
244 <link linkend='build-directory'>Build Directory</link>,
245 <filename>runqemu</filename> automatically finds the
246 <filename>bzImage-qemux86.bin</filename> image file and
247 the
248 <filename>core-image-minimal-qemux86-20140707074611.rootfs.ext3</filename>
249 (assuming the current build created a
250 <filename>core-image-minimal</filename> image).
251 <note>
252 When more than one image with the same name exists, QEMU finds
253 and uses the most recently built image according to the
254 timestamp.
255 </note>
256 <literallayout class='monospaced'>
257 $ runqemu qemux86
258 </literallayout>
259 This example produces the exact same results as the
260 previous example.
261 This command, however, specifically provides the image
262 and root filesystem type.
263 <literallayout class='monospaced'>
264 $ runqemu qemux86 core-image-minimal ext3
265 </literallayout>
266 This example specifies to boot an initial RAM disk image
267 and to enable audio in QEMU.
268 For this case, <filename>runqemu</filename> set the
269 internal variable <filename>FSTYPE</filename> to
270 "cpio.gz".
271 Also, for audio to be enabled, an appropriate driver must
272 be installed (see the previous description for the
273 <filename>audio</filename> option for more information).
274 <literallayout class='monospaced'>
275 $ runqemu qemux86 ramfs audio
276 </literallayout>
277 This example does not provide enough information for
278 QEMU to launch.
279 While the command does provide a root filesystem type, it
280 must also minimally provide a
281 <replaceable>MACHINE</replaceable>,
282 <replaceable>KERNEL</replaceable>, or
283 <replaceable>VM</replaceable> option.
284 <literallayout class='monospaced'>
285 $ runqemu ext3
286 </literallayout>
287 This example specifies to boot a virtual machine image
288 (<filename>.vmdk</filename> file).
289 From the <filename>.vmdk</filename>,
290 <filename>runqemu</filename> determines the QEMU
291 architecture (<replaceable>MACHINE</replaceable>) to be
292 "qemux86" and the root filesystem type to be "vmdk".
293 <literallayout class='monospaced'>
294 $ runqemu /home/scott-lenovo/vm/core-image-minimal-qemux86.vmdk
295 </literallayout>
296 </para>
297 </section>
298</section>
299
300<section id='qemu-running-under-a-network-file-system-nfs-server'>
301 <title>Running Under a Network File System (NFS) Server</title>
302
303 <para>
304 One method for running QEMU is to run it on an NFS server.
305 This is useful when you need to access the same file system from both
306 the build and the emulated system at the same time.
307 It is also worth noting that the system does not need root privileges
308 to run.
309 It uses a user space NFS server to avoid that.
310 This section describes how to set up for running QEMU using an NFS
311 server and then how you can start and stop the server.
312 </para>
313
314 <section id='qemu-setting-up-to-use-nfs'>
315 <title>Setting Up to Use NFS</title>
316
317 <para>
318 Once you are able to run QEMU in your environment, you can use the
319 <filename>runqemu-extract-sdk</filename> script, which is located
320 in the <filename>scripts</filename> directory along with
321 <filename>runqemu</filename> script.
322 The <filename>runqemu-extract-sdk</filename> takes a root
323 file system tarball and extracts it into a location that you
324 specify.
325 Then, when you run <filename>runqemu</filename>, you can specify
326 the location that has the file system to pass it to QEMU.
327 Here is an example that takes a file system and extracts it to
328 a directory named <filename>test-nfs</filename>:
329 <literallayout class='monospaced'>
330 runqemu-extract-sdk ./tmp/deploy/images/qemux86/core-image-sato-qemux86.tar.bz2 test-nfs
331 </literallayout>
332 Once you have extracted the file system, you can run
333 <filename>runqemu</filename> normally with the additional
334 location of the file system.
335 You can then also make changes to the files within
336 <filename>./test-nfs</filename> and see those changes appear in the
337 image in real time.
338 Here is an example using the <filename>qemux86</filename> image:
339 <literallayout class='monospaced'>
340 runqemu qemux86 ./test-nfs
341 </literallayout>
342 </para>
343 </section>
344
345 <section id='qemu-starting-and-stopping-nfs'>
346 <title>Starting and Stopping NFS</title>
347
348 <para>
349 You can manually start and stop the NFS share using these
350 commands:
351 <itemizedlist>
352 <listitem><para><emphasis><filename>start</filename>:</emphasis>
353 Starts the NFS share:
354 <literallayout class='monospaced'>
355 runqemu-export-rootfs start <replaceable>file-system-location</replaceable>
356 </literallayout>
357 </para></listitem>
358 <listitem><para><emphasis><filename>stop</filename>:</emphasis>
359 Stops the NFS share:
360 <literallayout class='monospaced'>
361 runqemu-export-rootfs stop <replaceable>file-system-location</replaceable>
362 </literallayout>
363 </para></listitem>
364 <listitem><para><emphasis><filename>restart</filename>:</emphasis>
365 Restarts the NFS share:
366 <literallayout class='monospaced'>
367 runqemu-export-rootfs restart <replaceable>file-system-location</replaceable>
368 </literallayout>
369 </para></listitem>
370 </itemizedlist>
371 </para>
372 </section>
373</section>
374
375<section id='qemu-tips-and-tricks'>
376 <title>Tips and Tricks</title>
377
378 <para>
379 The following list describes things you can do to make running QEMU
380 in the context of the Yocto Project a better experience:
381 <itemizedlist>
382 <listitem><para><emphasis>Switching Between Consoles:</emphasis>
383 When booting or running QEMU, you can switch between
384 supported consoles by using
385 Ctrl+Alt+<replaceable>number</replaceable>.
386 For example, Ctrl+Alt+3 switches you to the serial console as
387 long as that console is enabled.
388 Being able to switch consoles is helpful, for example, if the
389 main QEMU console breaks for some reason.
390 <note>
391 Usually, "2" gets you to the main console and "3" gets you
392 to the serial console.
393 </note>
394 </para></listitem>
395 <listitem><para><emphasis>Removing the Splash Screen:</emphasis>
396 You can remove the splash screen when QEMU is booting by
397 using Alt+left.
398 Removing the splash screen allows you to see what is happening
399 in the background.
400 </para></listitem>
401 <listitem><para><emphasis>Disabling the Cursor Grab:</emphasis>
402 The default QEMU integration captures the cursor within the
403 main window.
404 It does this since standard mouse devices only provide relative
405 input and not absolute coordinates.
406 You then have to break out of the grab using the "Ctrl+Alt" key
407 combination.
408 However, the Yocto Project's integration of QEMU enables the
409 wacom USB touch pad driver by default to allow input of absolute
410 coordinates.
411 This default means that the mouse can enter and leave the
412 main window without the grab taking effect leading to a better
413 user experience.
414 </para></listitem>
415 </itemizedlist>
416 </para>
417</section>
418
419</chapter>
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