forked from Minki/linux
25985edced
Fixes generated by 'codespell' and manually reviewed. Signed-off-by: Lucas De Marchi <lucas.demarchi@profusion.mobi>
1198 lines
47 KiB
XML
1198 lines
47 KiB
XML
<title>Common API Elements</title>
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<para>Programming a V4L2 device consists of these
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steps:</para>
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<itemizedlist>
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<listitem>
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<para>Opening the device</para>
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</listitem>
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<listitem>
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<para>Changing device properties, selecting a video and audio
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input, video standard, picture brightness a. o.</para>
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</listitem>
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<listitem>
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<para>Negotiating a data format</para>
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</listitem>
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<listitem>
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<para>Negotiating an input/output method</para>
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</listitem>
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<listitem>
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<para>The actual input/output loop</para>
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</listitem>
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<listitem>
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<para>Closing the device</para>
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</listitem>
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</itemizedlist>
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<para>In practice most steps are optional and can be executed out of
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order. It depends on the V4L2 device type, you can read about the
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details in <xref linkend="devices" />. In this chapter we will discuss
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the basic concepts applicable to all devices.</para>
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<section id="open">
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<title>Opening and Closing Devices</title>
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<section>
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<title>Device Naming</title>
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<para>V4L2 drivers are implemented as kernel modules, loaded
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manually by the system administrator or automatically when a device is
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first opened. The driver modules plug into the "videodev" kernel
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module. It provides helper functions and a common application
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interface specified in this document.</para>
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<para>Each driver thus loaded registers one or more device nodes
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with major number 81 and a minor number between 0 and 255. Assigning
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minor numbers to V4L2 devices is entirely up to the system administrator,
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this is primarily intended to solve conflicts between devices.<footnote>
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<para>Access permissions are associated with character
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device special files, hence we must ensure device numbers cannot
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change with the module load order. To this end minor numbers are no
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longer automatically assigned by the "videodev" module as in V4L but
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requested by the driver. The defaults will suffice for most people
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unless two drivers compete for the same minor numbers.</para>
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</footnote> The module options to select minor numbers are named
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after the device special file with a "_nr" suffix. For example "video_nr"
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for <filename>/dev/video</filename> video capture devices. The number is
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an offset to the base minor number associated with the device type.
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<footnote>
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<para>In earlier versions of the V4L2 API the module options
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where named after the device special file with a "unit_" prefix, expressing
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the minor number itself, not an offset. Rationale for this change is unknown.
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Lastly the naming and semantics are just a convention among driver writers,
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the point to note is that minor numbers are not supposed to be hardcoded
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into drivers.</para>
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</footnote> When the driver supports multiple devices of the same
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type more than one minor number can be assigned, separated by commas:
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<informalexample>
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<screen>
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> insmod mydriver.o video_nr=0,1 radio_nr=0,1</screen>
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</informalexample></para>
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<para>In <filename>/etc/modules.conf</filename> this may be
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written as: <informalexample>
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<screen>
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alias char-major-81-0 mydriver
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alias char-major-81-1 mydriver
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alias char-major-81-64 mydriver <co id="alias" />
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options mydriver video_nr=0,1 radio_nr=0,1 <co id="options" />
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</screen>
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<calloutlist>
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<callout arearefs="alias">
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<para>When an application attempts to open a device
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special file with major number 81 and minor number 0, 1, or 64, load
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"mydriver" (and the "videodev" module it depends upon).</para>
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</callout>
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<callout arearefs="options">
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<para>Register the first two video capture devices with
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minor number 0 and 1 (base number is 0), the first two radio device
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with minor number 64 and 65 (base 64).</para>
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</callout>
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</calloutlist>
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</informalexample> When no minor number is given as module
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option the driver supplies a default. <xref linkend="devices" />
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recommends the base minor numbers to be used for the various device
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types. Obviously minor numbers must be unique. When the number is
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already in use the <emphasis>offending device</emphasis> will not be
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registered. <!-- Blessed by Linus Torvalds on
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linux-kernel@vger.kernel.org, 2002-11-20. --></para>
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<para>By convention system administrators create various
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character device special files with these major and minor numbers in
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the <filename>/dev</filename> directory. The names recommended for the
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different V4L2 device types are listed in <xref linkend="devices" />.
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</para>
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<para>The creation of character special files (with
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<application>mknod</application>) is a privileged operation and
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devices cannot be opened by major and minor number. That means
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applications cannot <emphasis>reliable</emphasis> scan for loaded or
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installed drivers. The user must enter a device name, or the
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application can try the conventional device names.</para>
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<para>Under the device filesystem (devfs) the minor number
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options are ignored. V4L2 drivers (or by proxy the "videodev" module)
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automatically create the required device files in the
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<filename>/dev/v4l</filename> directory using the conventional device
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names above.</para>
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</section>
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<section id="related">
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<title>Related Devices</title>
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<para>Devices can support several related functions. For example
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video capturing, video overlay and VBI capturing are related because
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these functions share, amongst other, the same video input and tuner
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frequency. V4L and earlier versions of V4L2 used the same device name
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and minor number for video capturing and overlay, but different ones
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for VBI. Experience showed this approach has several problems<footnote>
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<para>Given a device file name one cannot reliable find
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related devices. For once names are arbitrary and in a system with
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multiple devices, where only some support VBI capturing, a
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<filename>/dev/video2</filename> is not necessarily related to
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<filename>/dev/vbi2</filename>. The V4L
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<constant>VIDIOCGUNIT</constant> ioctl would require a search for a
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device file with a particular major and minor number.</para>
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</footnote>, and to make things worse the V4L videodev module
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used to prohibit multiple opens of a device.</para>
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<para>As a remedy the present version of the V4L2 API relaxed the
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concept of device types with specific names and minor numbers. For
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compatibility with old applications drivers must still register different
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minor numbers to assign a default function to the device. But if related
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functions are supported by the driver they must be available under all
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registered minor numbers. The desired function can be selected after
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opening the device as described in <xref linkend="devices" />.</para>
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<para>Imagine a driver supporting video capturing, video
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overlay, raw VBI capturing, and FM radio reception. It registers three
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devices with minor number 0, 64 and 224 (this numbering scheme is
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inherited from the V4L API). Regardless if
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<filename>/dev/video</filename> (81, 0) or
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<filename>/dev/vbi</filename> (81, 224) is opened the application can
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select any one of the video capturing, overlay or VBI capturing
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functions. Without programming (e. g. reading from the device
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with <application>dd</application> or <application>cat</application>)
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<filename>/dev/video</filename> captures video images, while
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<filename>/dev/vbi</filename> captures raw VBI data.
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<filename>/dev/radio</filename> (81, 64) is invariable a radio device,
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unrelated to the video functions. Being unrelated does not imply the
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devices can be used at the same time, however. The &func-open;
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function may very well return an &EBUSY;.</para>
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<para>Besides video input or output the hardware may also
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support audio sampling or playback. If so, these functions are
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implemented as OSS or ALSA PCM devices and eventually OSS or ALSA
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audio mixer. The V4L2 API makes no provisions yet to find these
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related devices. If you have an idea please write to the linux-media
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mailing list: &v4l-ml;.</para>
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</section>
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<section>
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<title>Multiple Opens</title>
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<para>In general, V4L2 devices can be opened more than once.
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When this is supported by the driver, users can for example start a
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"panel" application to change controls like brightness or audio
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volume, while another application captures video and audio. In other words, panel
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applications are comparable to an OSS or ALSA audio mixer application.
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When a device supports multiple functions like capturing and overlay
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<emphasis>simultaneously</emphasis>, multiple opens allow concurrent
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use of the device by forked processes or specialized applications.</para>
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<para>Multiple opens are optional, although drivers should
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permit at least concurrent accesses without data exchange, &ie; panel
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applications. This implies &func-open; can return an &EBUSY; when the
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device is already in use, as well as &func-ioctl; functions initiating
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data exchange (namely the &VIDIOC-S-FMT; ioctl), and the &func-read;
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and &func-write; functions.</para>
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<para>Mere opening a V4L2 device does not grant exclusive
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access.<footnote>
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<para>Drivers could recognize the
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<constant>O_EXCL</constant> open flag. Presently this is not required,
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so applications cannot know if it really works.</para>
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</footnote> Initiating data exchange however assigns the right
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to read or write the requested type of data, and to change related
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properties, to this file descriptor. Applications can request
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additional access privileges using the priority mechanism described in
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<xref linkend="app-pri" />.</para>
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</section>
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<section>
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<title>Shared Data Streams</title>
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<para>V4L2 drivers should not support multiple applications
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reading or writing the same data stream on a device by copying
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buffers, time multiplexing or similar means. This is better handled by
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a proxy application in user space. When the driver supports stream
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sharing anyway it must be implemented transparently. The V4L2 API does
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not specify how conflicts are solved. <!-- For example O_EXCL when the
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application does not want to be preempted, PROT_READ mmapped buffers
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which can be mapped twice, what happens when image formats do not
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match etc.--></para>
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</section>
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<section>
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<title>Functions</title>
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<para>To open and close V4L2 devices applications use the
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&func-open; and &func-close; function, respectively. Devices are
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programmed using the &func-ioctl; function as explained in the
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following sections.</para>
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</section>
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</section>
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<section id="querycap">
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<title>Querying Capabilities</title>
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<para>Because V4L2 covers a wide variety of devices not all
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aspects of the API are equally applicable to all types of devices.
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Furthermore devices of the same type have different capabilities and
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this specification permits the omission of a few complicated and less
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important parts of the API.</para>
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<para>The &VIDIOC-QUERYCAP; ioctl is available to check if the kernel
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device is compatible with this specification, and to query the <link
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linkend="devices">functions</link> and <link linkend="io">I/O
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methods</link> supported by the device. Other features can be queried
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by calling the respective ioctl, for example &VIDIOC-ENUMINPUT;
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to learn about the number, types and names of video connectors on the
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device. Although abstraction is a major objective of this API, the
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ioctl also allows driver specific applications to reliable identify
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the driver.</para>
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<para>All V4L2 drivers must support
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<constant>VIDIOC_QUERYCAP</constant>. Applications should always call
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this ioctl after opening the device.</para>
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</section>
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<section id="app-pri">
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<title>Application Priority</title>
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<para>When multiple applications share a device it may be
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desirable to assign them different priorities. Contrary to the
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traditional "rm -rf /" school of thought a video recording application
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could for example block other applications from changing video
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controls or switching the current TV channel. Another objective is to
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permit low priority applications working in background, which can be
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preempted by user controlled applications and automatically regain
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control of the device at a later time.</para>
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<para>Since these features cannot be implemented entirely in user
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space V4L2 defines the &VIDIOC-G-PRIORITY; and &VIDIOC-S-PRIORITY;
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ioctls to request and query the access priority associate with a file
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descriptor. Opening a device assigns a medium priority, compatible
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with earlier versions of V4L2 and drivers not supporting these ioctls.
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Applications requiring a different priority will usually call
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<constant>VIDIOC_S_PRIORITY</constant> after verifying the device with
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the &VIDIOC-QUERYCAP; ioctl.</para>
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<para>Ioctls changing driver properties, such as &VIDIOC-S-INPUT;,
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return an &EBUSY; after another application obtained higher priority.
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An event mechanism to notify applications about asynchronous property
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changes has been proposed but not added yet.</para>
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</section>
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<section id="video">
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<title>Video Inputs and Outputs</title>
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<para>Video inputs and outputs are physical connectors of a
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device. These can be for example RF connectors (antenna/cable), CVBS
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a.k.a. Composite Video, S-Video or RGB connectors. Only video and VBI
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capture devices have inputs, output devices have outputs, at least one
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each. Radio devices have no video inputs or outputs.</para>
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<para>To learn about the number and attributes of the
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available inputs and outputs applications can enumerate them with the
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&VIDIOC-ENUMINPUT; and &VIDIOC-ENUMOUTPUT; ioctl, respectively. The
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&v4l2-input; returned by the <constant>VIDIOC_ENUMINPUT</constant>
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ioctl also contains signal status information applicable when the
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current video input is queried.</para>
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<para>The &VIDIOC-G-INPUT; and &VIDIOC-G-OUTPUT; ioctl return the
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index of the current video input or output. To select a different
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input or output applications call the &VIDIOC-S-INPUT; and
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&VIDIOC-S-OUTPUT; ioctl. Drivers must implement all the input ioctls
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when the device has one or more inputs, all the output ioctls when the
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device has one or more outputs.</para>
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<!--
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<figure id=io-tree>
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<title>Input and output enumeration is the root of most device properties.</title>
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<mediaobject>
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<imageobject>
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<imagedata fileref="links.pdf" format="ps" />
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</imageobject>
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<imageobject>
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<imagedata fileref="links.gif" format="gif" />
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</imageobject>
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<textobject>
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<phrase>Links between various device property structures.</phrase>
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</textobject>
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</mediaobject>
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</figure>
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-->
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<example>
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<title>Information about the current video input</title>
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<programlisting>
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&v4l2-input; input;
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int index;
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if (-1 == ioctl (fd, &VIDIOC-G-INPUT;, &index)) {
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perror ("VIDIOC_G_INPUT");
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exit (EXIT_FAILURE);
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}
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memset (&input, 0, sizeof (input));
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input.index = index;
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if (-1 == ioctl (fd, &VIDIOC-ENUMINPUT;, &input)) {
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perror ("VIDIOC_ENUMINPUT");
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exit (EXIT_FAILURE);
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}
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printf ("Current input: %s\n", input.name);
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</programlisting>
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</example>
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<example>
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<title>Switching to the first video input</title>
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<programlisting>
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int index;
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index = 0;
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if (-1 == ioctl (fd, &VIDIOC-S-INPUT;, &index)) {
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perror ("VIDIOC_S_INPUT");
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exit (EXIT_FAILURE);
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}
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</programlisting>
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</example>
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</section>
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<section id="audio">
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<title>Audio Inputs and Outputs</title>
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<para>Audio inputs and outputs are physical connectors of a
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device. Video capture devices have inputs, output devices have
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outputs, zero or more each. Radio devices have no audio inputs or
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outputs. They have exactly one tuner which in fact
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<emphasis>is</emphasis> an audio source, but this API associates
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tuners with video inputs or outputs only, and radio devices have
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none of these.<footnote>
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<para>Actually &v4l2-audio; ought to have a
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<structfield>tuner</structfield> field like &v4l2-input;, not only
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making the API more consistent but also permitting radio devices with
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multiple tuners.</para>
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</footnote> A connector on a TV card to loop back the received
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audio signal to a sound card is not considered an audio output.</para>
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<para>Audio and video inputs and outputs are associated. Selecting
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a video source also selects an audio source. This is most evident when
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the video and audio source is a tuner. Further audio connectors can
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combine with more than one video input or output. Assumed two
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composite video inputs and two audio inputs exist, there may be up to
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four valid combinations. The relation of video and audio connectors
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is defined in the <structfield>audioset</structfield> field of the
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respective &v4l2-input; or &v4l2-output;, where each bit represents
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the index number, starting at zero, of one audio input or output.</para>
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<para>To learn about the number and attributes of the
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available inputs and outputs applications can enumerate them with the
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&VIDIOC-ENUMAUDIO; and &VIDIOC-ENUMAUDOUT; ioctl, respectively. The
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&v4l2-audio; returned by the <constant>VIDIOC_ENUMAUDIO</constant> ioctl
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also contains signal status information applicable when the current
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audio input is queried.</para>
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<para>The &VIDIOC-G-AUDIO; and &VIDIOC-G-AUDOUT; ioctl report
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the current audio input and output, respectively. Note that, unlike
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&VIDIOC-G-INPUT; and &VIDIOC-G-OUTPUT; these ioctls return a structure
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as <constant>VIDIOC_ENUMAUDIO</constant> and
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<constant>VIDIOC_ENUMAUDOUT</constant> do, not just an index.</para>
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<para>To select an audio input and change its properties
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applications call the &VIDIOC-S-AUDIO; ioctl. To select an audio
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output (which presently has no changeable properties) applications
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call the &VIDIOC-S-AUDOUT; ioctl.</para>
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<para>Drivers must implement all input ioctls when the device
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has one or more inputs, all output ioctls when the device has one
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or more outputs. When the device has any audio inputs or outputs the
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driver must set the <constant>V4L2_CAP_AUDIO</constant> flag in the
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&v4l2-capability; returned by the &VIDIOC-QUERYCAP; ioctl.</para>
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<example>
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<title>Information about the current audio input</title>
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<programlisting>
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&v4l2-audio; audio;
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memset (&audio, 0, sizeof (audio));
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if (-1 == ioctl (fd, &VIDIOC-G-AUDIO;, &audio)) {
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perror ("VIDIOC_G_AUDIO");
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exit (EXIT_FAILURE);
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}
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printf ("Current input: %s\n", audio.name);
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</programlisting>
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</example>
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<example>
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<title>Switching to the first audio input</title>
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<programlisting>
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&v4l2-audio; audio;
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memset (&audio, 0, sizeof (audio)); /* clear audio.mode, audio.reserved */
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audio.index = 0;
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if (-1 == ioctl (fd, &VIDIOC-S-AUDIO;, &audio)) {
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perror ("VIDIOC_S_AUDIO");
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exit (EXIT_FAILURE);
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}
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</programlisting>
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</example>
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</section>
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<section id="tuner">
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<title>Tuners and Modulators</title>
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<section>
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<title>Tuners</title>
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<para>Video input devices can have one or more tuners
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demodulating a RF signal. Each tuner is associated with one or more
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video inputs, depending on the number of RF connectors on the tuner.
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The <structfield>type</structfield> field of the respective
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&v4l2-input; returned by the &VIDIOC-ENUMINPUT; ioctl is set to
|
|
<constant>V4L2_INPUT_TYPE_TUNER</constant> and its
|
|
<structfield>tuner</structfield> field contains the index number of
|
|
the tuner.</para>
|
|
|
|
<para>Radio devices have exactly one tuner with index zero, no
|
|
video inputs.</para>
|
|
|
|
<para>To query and change tuner properties applications use the
|
|
&VIDIOC-G-TUNER; and &VIDIOC-S-TUNER; ioctl, respectively. The
|
|
&v4l2-tuner; returned by <constant>VIDIOC_G_TUNER</constant> also
|
|
contains signal status information applicable when the tuner of the
|
|
current video input, or a radio tuner is queried. Note that
|
|
<constant>VIDIOC_S_TUNER</constant> does not switch the current tuner,
|
|
when there is more than one at all. The tuner is solely determined by
|
|
the current video input. Drivers must support both ioctls and set the
|
|
<constant>V4L2_CAP_TUNER</constant> flag in the &v4l2-capability;
|
|
returned by the &VIDIOC-QUERYCAP; ioctl when the device has one or
|
|
more tuners.</para>
|
|
</section>
|
|
|
|
<section>
|
|
<title>Modulators</title>
|
|
|
|
<para>Video output devices can have one or more modulators, uh,
|
|
modulating a video signal for radiation or connection to the antenna
|
|
input of a TV set or video recorder. Each modulator is associated with
|
|
one or more video outputs, depending on the number of RF connectors on
|
|
the modulator. The <structfield>type</structfield> field of the
|
|
respective &v4l2-output; returned by the &VIDIOC-ENUMOUTPUT; ioctl is
|
|
set to <constant>V4L2_OUTPUT_TYPE_MODULATOR</constant> and its
|
|
<structfield>modulator</structfield> field contains the index number
|
|
of the modulator. This specification does not define radio output
|
|
devices.</para>
|
|
|
|
<para>To query and change modulator properties applications use
|
|
the &VIDIOC-G-MODULATOR; and &VIDIOC-S-MODULATOR; ioctl. Note that
|
|
<constant>VIDIOC_S_MODULATOR</constant> does not switch the current
|
|
modulator, when there is more than one at all. The modulator is solely
|
|
determined by the current video output. Drivers must support both
|
|
ioctls and set the <constant>V4L2_CAP_MODULATOR</constant> flag in
|
|
the &v4l2-capability; returned by the &VIDIOC-QUERYCAP; ioctl when the
|
|
device has one or more modulators.</para>
|
|
</section>
|
|
|
|
<section>
|
|
<title>Radio Frequency</title>
|
|
|
|
<para>To get and set the tuner or modulator radio frequency
|
|
applications use the &VIDIOC-G-FREQUENCY; and &VIDIOC-S-FREQUENCY;
|
|
ioctl which both take a pointer to a &v4l2-frequency;. These ioctls
|
|
are used for TV and radio devices alike. Drivers must support both
|
|
ioctls when the tuner or modulator ioctls are supported, or
|
|
when the device is a radio device.</para>
|
|
</section>
|
|
</section>
|
|
|
|
<section id="standard">
|
|
<title>Video Standards</title>
|
|
|
|
<para>Video devices typically support one or more different video
|
|
standards or variations of standards. Each video input and output may
|
|
support another set of standards. This set is reported by the
|
|
<structfield>std</structfield> field of &v4l2-input; and
|
|
&v4l2-output; returned by the &VIDIOC-ENUMINPUT; and
|
|
&VIDIOC-ENUMOUTPUT; ioctl, respectively.</para>
|
|
|
|
<para>V4L2 defines one bit for each analog video standard
|
|
currently in use worldwide, and sets aside bits for driver defined
|
|
standards, ⪚ hybrid standards to watch NTSC video tapes on PAL TVs
|
|
and vice versa. Applications can use the predefined bits to select a
|
|
particular standard, although presenting the user a menu of supported
|
|
standards is preferred. To enumerate and query the attributes of the
|
|
supported standards applications use the &VIDIOC-ENUMSTD; ioctl.</para>
|
|
|
|
<para>Many of the defined standards are actually just variations
|
|
of a few major standards. The hardware may in fact not distinguish
|
|
between them, or do so internal and switch automatically. Therefore
|
|
enumerated standards also contain sets of one or more standard
|
|
bits.</para>
|
|
|
|
<para>Assume a hypothetic tuner capable of demodulating B/PAL,
|
|
G/PAL and I/PAL signals. The first enumerated standard is a set of B
|
|
and G/PAL, switched automatically depending on the selected radio
|
|
frequency in UHF or VHF band. Enumeration gives a "PAL-B/G" or "PAL-I"
|
|
choice. Similar a Composite input may collapse standards, enumerating
|
|
"PAL-B/G/H/I", "NTSC-M" and "SECAM-D/K".<footnote>
|
|
<para>Some users are already confused by technical terms PAL,
|
|
NTSC and SECAM. There is no point asking them to distinguish between
|
|
B, G, D, or K when the software or hardware can do that
|
|
automatically.</para>
|
|
</footnote></para>
|
|
|
|
<para>To query and select the standard used by the current video
|
|
input or output applications call the &VIDIOC-G-STD; and
|
|
&VIDIOC-S-STD; ioctl, respectively. The <emphasis>received</emphasis>
|
|
standard can be sensed with the &VIDIOC-QUERYSTD; ioctl. Note parameter of all these ioctls is a pointer to a &v4l2-std-id; type (a standard set), <emphasis>not</emphasis> an index into the standard enumeration.<footnote>
|
|
<para>An alternative to the current scheme is to use pointers
|
|
to indices as arguments of <constant>VIDIOC_G_STD</constant> and
|
|
<constant>VIDIOC_S_STD</constant>, the &v4l2-input; and
|
|
&v4l2-output; <structfield>std</structfield> field would be a set of
|
|
indices like <structfield>audioset</structfield>.</para>
|
|
<para>Indices are consistent with the rest of the API
|
|
and identify the standard unambiguously. In the present scheme of
|
|
things an enumerated standard is looked up by &v4l2-std-id;. Now the
|
|
standards supported by the inputs of a device can overlap. Just
|
|
assume the tuner and composite input in the example above both
|
|
exist on a device. An enumeration of "PAL-B/G", "PAL-H/I" suggests
|
|
a choice which does not exist. We cannot merge or omit sets, because
|
|
applications would be unable to find the standards reported by
|
|
<constant>VIDIOC_G_STD</constant>. That leaves separate enumerations
|
|
for each input. Also selecting a standard by &v4l2-std-id; can be
|
|
ambiguous. Advantage of this method is that applications need not
|
|
identify the standard indirectly, after enumerating.</para><para>So in
|
|
summary, the lookup itself is unavoidable. The difference is only
|
|
whether the lookup is necessary to find an enumerated standard or to
|
|
switch to a standard by &v4l2-std-id;.</para>
|
|
</footnote> Drivers must implement all video standard ioctls
|
|
when the device has one or more video inputs or outputs.</para>
|
|
|
|
<para>Special rules apply to USB cameras where the notion of video
|
|
standards makes little sense. More generally any capture device,
|
|
output devices accordingly, which is <itemizedlist>
|
|
<listitem>
|
|
<para>incapable of capturing fields or frames at the nominal
|
|
rate of the video standard, or</para>
|
|
</listitem>
|
|
<listitem>
|
|
<para>where <link linkend="buffer">timestamps</link> refer
|
|
to the instant the field or frame was received by the driver, not the
|
|
capture time, or</para>
|
|
</listitem>
|
|
<listitem>
|
|
<para>where <link linkend="buffer">sequence numbers</link>
|
|
refer to the frames received by the driver, not the captured
|
|
frames.</para>
|
|
</listitem>
|
|
</itemizedlist> Here the driver shall set the
|
|
<structfield>std</structfield> field of &v4l2-input; and &v4l2-output;
|
|
to zero, the <constant>VIDIOC_G_STD</constant>,
|
|
<constant>VIDIOC_S_STD</constant>,
|
|
<constant>VIDIOC_QUERYSTD</constant> and
|
|
<constant>VIDIOC_ENUMSTD</constant> ioctls shall return the
|
|
&EINVAL;.<footnote>
|
|
<para>See <xref linkend="buffer" /> for a rationale. Probably
|
|
even USB cameras follow some well known video standard. It might have
|
|
been better to explicitly indicate elsewhere if a device cannot live
|
|
up to normal expectations, instead of this exception.</para>
|
|
</footnote></para>
|
|
|
|
<example>
|
|
<title>Information about the current video standard</title>
|
|
|
|
<programlisting>
|
|
&v4l2-std-id; std_id;
|
|
&v4l2-standard; standard;
|
|
|
|
if (-1 == ioctl (fd, &VIDIOC-G-STD;, &std_id)) {
|
|
/* Note when VIDIOC_ENUMSTD always returns EINVAL this
|
|
is no video device or it falls under the USB exception,
|
|
and VIDIOC_G_STD returning EINVAL is no error. */
|
|
|
|
perror ("VIDIOC_G_STD");
|
|
exit (EXIT_FAILURE);
|
|
}
|
|
|
|
memset (&standard, 0, sizeof (standard));
|
|
standard.index = 0;
|
|
|
|
while (0 == ioctl (fd, &VIDIOC-ENUMSTD;, &standard)) {
|
|
if (standard.id & std_id) {
|
|
printf ("Current video standard: %s\n", standard.name);
|
|
exit (EXIT_SUCCESS);
|
|
}
|
|
|
|
standard.index++;
|
|
}
|
|
|
|
/* EINVAL indicates the end of the enumeration, which cannot be
|
|
empty unless this device falls under the USB exception. */
|
|
|
|
if (errno == EINVAL || standard.index == 0) {
|
|
perror ("VIDIOC_ENUMSTD");
|
|
exit (EXIT_FAILURE);
|
|
}
|
|
</programlisting>
|
|
</example>
|
|
|
|
<example>
|
|
<title>Listing the video standards supported by the current
|
|
input</title>
|
|
|
|
<programlisting>
|
|
&v4l2-input; input;
|
|
&v4l2-standard; standard;
|
|
|
|
memset (&input, 0, sizeof (input));
|
|
|
|
if (-1 == ioctl (fd, &VIDIOC-G-INPUT;, &input.index)) {
|
|
perror ("VIDIOC_G_INPUT");
|
|
exit (EXIT_FAILURE);
|
|
}
|
|
|
|
if (-1 == ioctl (fd, &VIDIOC-ENUMINPUT;, &input)) {
|
|
perror ("VIDIOC_ENUM_INPUT");
|
|
exit (EXIT_FAILURE);
|
|
}
|
|
|
|
printf ("Current input %s supports:\n", input.name);
|
|
|
|
memset (&standard, 0, sizeof (standard));
|
|
standard.index = 0;
|
|
|
|
while (0 == ioctl (fd, &VIDIOC-ENUMSTD;, &standard)) {
|
|
if (standard.id & input.std)
|
|
printf ("%s\n", standard.name);
|
|
|
|
standard.index++;
|
|
}
|
|
|
|
/* EINVAL indicates the end of the enumeration, which cannot be
|
|
empty unless this device falls under the USB exception. */
|
|
|
|
if (errno != EINVAL || standard.index == 0) {
|
|
perror ("VIDIOC_ENUMSTD");
|
|
exit (EXIT_FAILURE);
|
|
}
|
|
</programlisting>
|
|
</example>
|
|
|
|
<example>
|
|
<title>Selecting a new video standard</title>
|
|
|
|
<programlisting>
|
|
&v4l2-input; input;
|
|
&v4l2-std-id; std_id;
|
|
|
|
memset (&input, 0, sizeof (input));
|
|
|
|
if (-1 == ioctl (fd, &VIDIOC-G-INPUT;, &input.index)) {
|
|
perror ("VIDIOC_G_INPUT");
|
|
exit (EXIT_FAILURE);
|
|
}
|
|
|
|
if (-1 == ioctl (fd, &VIDIOC-ENUMINPUT;, &input)) {
|
|
perror ("VIDIOC_ENUM_INPUT");
|
|
exit (EXIT_FAILURE);
|
|
}
|
|
|
|
if (0 == (input.std & V4L2_STD_PAL_BG)) {
|
|
fprintf (stderr, "Oops. B/G PAL is not supported.\n");
|
|
exit (EXIT_FAILURE);
|
|
}
|
|
|
|
/* Note this is also supposed to work when only B
|
|
<emphasis>or</emphasis> G/PAL is supported. */
|
|
|
|
std_id = V4L2_STD_PAL_BG;
|
|
|
|
if (-1 == ioctl (fd, &VIDIOC-S-STD;, &std_id)) {
|
|
perror ("VIDIOC_S_STD");
|
|
exit (EXIT_FAILURE);
|
|
}
|
|
</programlisting>
|
|
</example>
|
|
<section id="dv-timings">
|
|
<title>Digital Video (DV) Timings</title>
|
|
<para>
|
|
The video standards discussed so far has been dealing with Analog TV and the
|
|
corresponding video timings. Today there are many more different hardware interfaces
|
|
such as High Definition TV interfaces (HDMI), VGA, DVI connectors etc., that carry
|
|
video signals and there is a need to extend the API to select the video timings
|
|
for these interfaces. Since it is not possible to extend the &v4l2-std-id; due to
|
|
the limited bits available, a new set of IOCTLs is added to set/get video timings at
|
|
the input and output: </para><itemizedlist>
|
|
<listitem>
|
|
<para>DV Presets: Digital Video (DV) presets. These are IDs representing a
|
|
video timing at the input/output. Presets are pre-defined timings implemented
|
|
by the hardware according to video standards. A __u32 data type is used to represent
|
|
a preset unlike the bit mask that is used in &v4l2-std-id; allowing future extensions
|
|
to support as many different presets as needed.</para>
|
|
</listitem>
|
|
<listitem>
|
|
<para>Custom DV Timings: This will allow applications to define more detailed
|
|
custom video timings for the interface. This includes parameters such as width, height,
|
|
polarities, frontporch, backporch etc.
|
|
</para>
|
|
</listitem>
|
|
</itemizedlist>
|
|
<para>To enumerate and query the attributes of DV presets supported by a device,
|
|
applications use the &VIDIOC-ENUM-DV-PRESETS; ioctl. To get the current DV preset,
|
|
applications use the &VIDIOC-G-DV-PRESET; ioctl and to set a preset they use the
|
|
&VIDIOC-S-DV-PRESET; ioctl.</para>
|
|
<para>To set custom DV timings for the device, applications use the
|
|
&VIDIOC-S-DV-TIMINGS; ioctl and to get current custom DV timings they use the
|
|
&VIDIOC-G-DV-TIMINGS; ioctl.</para>
|
|
<para>Applications can make use of the <xref linkend="input-capabilities" /> and
|
|
<xref linkend="output-capabilities"/> flags to decide what ioctls are available to set the
|
|
video timings for the device.</para>
|
|
</section>
|
|
</section>
|
|
|
|
&sub-controls;
|
|
|
|
<section id="format">
|
|
<title>Data Formats</title>
|
|
|
|
<section>
|
|
<title>Data Format Negotiation</title>
|
|
|
|
<para>Different devices exchange different kinds of data with
|
|
applications, for example video images, raw or sliced VBI data, RDS
|
|
datagrams. Even within one kind many different formats are possible,
|
|
in particular an abundance of image formats. Although drivers must
|
|
provide a default and the selection persists across closing and
|
|
reopening a device, applications should always negotiate a data format
|
|
before engaging in data exchange. Negotiation means the application
|
|
asks for a particular format and the driver selects and reports the
|
|
best the hardware can do to satisfy the request. Of course
|
|
applications can also just query the current selection.</para>
|
|
|
|
<para>A single mechanism exists to negotiate all data formats
|
|
using the aggregate &v4l2-format; and the &VIDIOC-G-FMT; and
|
|
&VIDIOC-S-FMT; ioctls. Additionally the &VIDIOC-TRY-FMT; ioctl can be
|
|
used to examine what the hardware <emphasis>could</emphasis> do,
|
|
without actually selecting a new data format. The data formats
|
|
supported by the V4L2 API are covered in the respective device section
|
|
in <xref linkend="devices" />. For a closer look at image formats see
|
|
<xref linkend="pixfmt" />.</para>
|
|
|
|
<para>The <constant>VIDIOC_S_FMT</constant> ioctl is a major
|
|
turning-point in the initialization sequence. Prior to this point
|
|
multiple panel applications can access the same device concurrently to
|
|
select the current input, change controls or modify other properties.
|
|
The first <constant>VIDIOC_S_FMT</constant> assigns a logical stream
|
|
(video data, VBI data etc.) exclusively to one file descriptor.</para>
|
|
|
|
<para>Exclusive means no other application, more precisely no
|
|
other file descriptor, can grab this stream or change device
|
|
properties inconsistent with the negotiated parameters. A video
|
|
standard change for example, when the new standard uses a different
|
|
number of scan lines, can invalidate the selected image format.
|
|
Therefore only the file descriptor owning the stream can make
|
|
invalidating changes. Accordingly multiple file descriptors which
|
|
grabbed different logical streams prevent each other from interfering
|
|
with their settings. When for example video overlay is about to start
|
|
or already in progress, simultaneous video capturing may be restricted
|
|
to the same cropping and image size.</para>
|
|
|
|
<para>When applications omit the
|
|
<constant>VIDIOC_S_FMT</constant> ioctl its locking side effects are
|
|
implied by the next step, the selection of an I/O method with the
|
|
&VIDIOC-REQBUFS; ioctl or implicit with the first &func-read; or
|
|
&func-write; call.</para>
|
|
|
|
<para>Generally only one logical stream can be assigned to a
|
|
file descriptor, the exception being drivers permitting simultaneous
|
|
video capturing and overlay using the same file descriptor for
|
|
compatibility with V4L and earlier versions of V4L2. Switching the
|
|
logical stream or returning into "panel mode" is possible by closing
|
|
and reopening the device. Drivers <emphasis>may</emphasis> support a
|
|
switch using <constant>VIDIOC_S_FMT</constant>.</para>
|
|
|
|
<para>All drivers exchanging data with
|
|
applications must support the <constant>VIDIOC_G_FMT</constant> and
|
|
<constant>VIDIOC_S_FMT</constant> ioctl. Implementation of the
|
|
<constant>VIDIOC_TRY_FMT</constant> is highly recommended but
|
|
optional.</para>
|
|
</section>
|
|
|
|
<section>
|
|
<title>Image Format Enumeration</title>
|
|
|
|
<para>Apart of the generic format negotiation functions
|
|
a special ioctl to enumerate all image formats supported by video
|
|
capture, overlay or output devices is available.<footnote>
|
|
<para>Enumerating formats an application has no a-priori
|
|
knowledge of (otherwise it could explicitly ask for them and need not
|
|
enumerate) seems useless, but there are applications serving as proxy
|
|
between drivers and the actual video applications for which this is
|
|
useful.</para>
|
|
</footnote></para>
|
|
|
|
<para>The &VIDIOC-ENUM-FMT; ioctl must be supported
|
|
by all drivers exchanging image data with applications.</para>
|
|
|
|
<important>
|
|
<para>Drivers are not supposed to convert image formats in
|
|
kernel space. They must enumerate only formats directly supported by
|
|
the hardware. If necessary driver writers should publish an example
|
|
conversion routine or library for integration into applications.</para>
|
|
</important>
|
|
</section>
|
|
</section>
|
|
|
|
&sub-planar-apis;
|
|
|
|
<section id="crop">
|
|
<title>Image Cropping, Insertion and Scaling</title>
|
|
|
|
<para>Some video capture devices can sample a subsection of the
|
|
picture and shrink or enlarge it to an image of arbitrary size. We
|
|
call these abilities cropping and scaling. Some video output devices
|
|
can scale an image up or down and insert it at an arbitrary scan line
|
|
and horizontal offset into a video signal.</para>
|
|
|
|
<para>Applications can use the following API to select an area in
|
|
the video signal, query the default area and the hardware limits.
|
|
<emphasis>Despite their name, the &VIDIOC-CROPCAP;, &VIDIOC-G-CROP;
|
|
and &VIDIOC-S-CROP; ioctls apply to input as well as output
|
|
devices.</emphasis></para>
|
|
|
|
<para>Scaling requires a source and a target. On a video capture
|
|
or overlay device the source is the video signal, and the cropping
|
|
ioctls determine the area actually sampled. The target are images
|
|
read by the application or overlaid onto the graphics screen. Their
|
|
size (and position for an overlay) is negotiated with the
|
|
&VIDIOC-G-FMT; and &VIDIOC-S-FMT; ioctls.</para>
|
|
|
|
<para>On a video output device the source are the images passed in
|
|
by the application, and their size is again negotiated with the
|
|
<constant>VIDIOC_G/S_FMT</constant> ioctls, or may be encoded in a
|
|
compressed video stream. The target is the video signal, and the
|
|
cropping ioctls determine the area where the images are
|
|
inserted.</para>
|
|
|
|
<para>Source and target rectangles are defined even if the device
|
|
does not support scaling or the <constant>VIDIOC_G/S_CROP</constant>
|
|
ioctls. Their size (and position where applicable) will be fixed in
|
|
this case. <emphasis>All capture and output device must support the
|
|
<constant>VIDIOC_CROPCAP</constant> ioctl such that applications can
|
|
determine if scaling takes place.</emphasis></para>
|
|
|
|
<section>
|
|
<title>Cropping Structures</title>
|
|
|
|
<figure id="crop-scale">
|
|
<title>Image Cropping, Insertion and Scaling</title>
|
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<mediaobject>
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<imageobject>
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<imagedata fileref="crop.pdf" format="PS" />
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</imageobject>
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<imageobject>
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<imagedata fileref="crop.gif" format="GIF" />
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</imageobject>
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<textobject>
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<phrase>The cropping, insertion and scaling process</phrase>
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</textobject>
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</mediaobject>
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</figure>
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<para>For capture devices the coordinates of the top left
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corner, width and height of the area which can be sampled is given by
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the <structfield>bounds</structfield> substructure of the
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&v4l2-cropcap; returned by the <constant>VIDIOC_CROPCAP</constant>
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ioctl. To support a wide range of hardware this specification does not
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define an origin or units. However by convention drivers should
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horizontally count unscaled samples relative to 0H (the leading edge
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of the horizontal sync pulse, see <xref linkend="vbi-hsync" />).
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Vertically ITU-R line
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numbers of the first field (<xref linkend="vbi-525" />, <xref
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linkend="vbi-625" />), multiplied by two if the driver can capture both
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fields.</para>
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<para>The top left corner, width and height of the source
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rectangle, that is the area actually sampled, is given by &v4l2-crop;
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using the same coordinate system as &v4l2-cropcap;. Applications can
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use the <constant>VIDIOC_G_CROP</constant> and
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<constant>VIDIOC_S_CROP</constant> ioctls to get and set this
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rectangle. It must lie completely within the capture boundaries and
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the driver may further adjust the requested size and/or position
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according to hardware limitations.</para>
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<para>Each capture device has a default source rectangle, given
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by the <structfield>defrect</structfield> substructure of
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&v4l2-cropcap;. The center of this rectangle shall align with the
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center of the active picture area of the video signal, and cover what
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the driver writer considers the complete picture. Drivers shall reset
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the source rectangle to the default when the driver is first loaded,
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but not later.</para>
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<para>For output devices these structures and ioctls are used
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accordingly, defining the <emphasis>target</emphasis> rectangle where
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the images will be inserted into the video signal.</para>
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</section>
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<section>
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<title>Scaling Adjustments</title>
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<para>Video hardware can have various cropping, insertion and
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scaling limitations. It may only scale up or down, support only
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discrete scaling factors, or have different scaling abilities in
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horizontal and vertical direction. Also it may not support scaling at
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all. At the same time the &v4l2-crop; rectangle may have to be
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aligned, and both the source and target rectangles may have arbitrary
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upper and lower size limits. In particular the maximum
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<structfield>width</structfield> and <structfield>height</structfield>
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in &v4l2-crop; may be smaller than the
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&v4l2-cropcap;.<structfield>bounds</structfield> area. Therefore, as
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usual, drivers are expected to adjust the requested parameters and
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return the actual values selected.</para>
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<para>Applications can change the source or the target rectangle
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first, as they may prefer a particular image size or a certain area in
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the video signal. If the driver has to adjust both to satisfy hardware
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limitations, the last requested rectangle shall take priority, and the
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driver should preferably adjust the opposite one. The &VIDIOC-TRY-FMT;
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ioctl however shall not change the driver state and therefore only
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adjust the requested rectangle.</para>
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<para>Suppose scaling on a video capture device is restricted to
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a factor 1:1 or 2:1 in either direction and the target image size must
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be a multiple of 16 × 16 pixels. The source cropping
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rectangle is set to defaults, which are also the upper limit in this
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example, of 640 × 400 pixels at offset 0, 0. An
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application requests an image size of 300 × 225
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pixels, assuming video will be scaled down from the "full picture"
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accordingly. The driver sets the image size to the closest possible
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values 304 × 224, then chooses the cropping rectangle
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closest to the requested size, that is 608 × 224
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(224 × 2:1 would exceed the limit 400). The offset
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0, 0 is still valid, thus unmodified. Given the default cropping
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rectangle reported by <constant>VIDIOC_CROPCAP</constant> the
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application can easily propose another offset to center the cropping
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rectangle.</para>
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<para>Now the application may insist on covering an area using a
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picture aspect ratio closer to the original request, so it asks for a
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cropping rectangle of 608 × 456 pixels. The present
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scaling factors limit cropping to 640 × 384, so the
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driver returns the cropping size 608 × 384 and adjusts
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the image size to closest possible 304 × 192.</para>
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</section>
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<section>
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<title>Examples</title>
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<para>Source and target rectangles shall remain unchanged across
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closing and reopening a device, such that piping data into or out of a
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device will work without special preparations. More advanced
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applications should ensure the parameters are suitable before starting
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I/O.</para>
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<example>
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<title>Resetting the cropping parameters</title>
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<para>(A video capture device is assumed; change
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<constant>V4L2_BUF_TYPE_VIDEO_CAPTURE</constant> for other
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devices.)</para>
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<programlisting>
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&v4l2-cropcap; cropcap;
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&v4l2-crop; crop;
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memset (&cropcap, 0, sizeof (cropcap));
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cropcap.type = V4L2_BUF_TYPE_VIDEO_CAPTURE;
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if (-1 == ioctl (fd, &VIDIOC-CROPCAP;, &cropcap)) {
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perror ("VIDIOC_CROPCAP");
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exit (EXIT_FAILURE);
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}
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memset (&crop, 0, sizeof (crop));
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crop.type = V4L2_BUF_TYPE_VIDEO_CAPTURE;
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crop.c = cropcap.defrect;
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/* Ignore if cropping is not supported (EINVAL). */
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if (-1 == ioctl (fd, &VIDIOC-S-CROP;, &crop)
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&& errno != EINVAL) {
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perror ("VIDIOC_S_CROP");
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exit (EXIT_FAILURE);
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}
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</programlisting>
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</example>
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<example>
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<title>Simple downscaling</title>
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<para>(A video capture device is assumed.)</para>
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<programlisting>
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&v4l2-cropcap; cropcap;
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&v4l2-format; format;
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reset_cropping_parameters ();
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/* Scale down to 1/4 size of full picture. */
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memset (&format, 0, sizeof (format)); /* defaults */
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format.type = V4L2_BUF_TYPE_VIDEO_CAPTURE;
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format.fmt.pix.width = cropcap.defrect.width >> 1;
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format.fmt.pix.height = cropcap.defrect.height >> 1;
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format.fmt.pix.pixelformat = V4L2_PIX_FMT_YUYV;
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if (-1 == ioctl (fd, &VIDIOC-S-FMT;, &format)) {
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perror ("VIDIOC_S_FORMAT");
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exit (EXIT_FAILURE);
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}
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/* We could check the actual image size now, the actual scaling factor
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or if the driver can scale at all. */
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</programlisting>
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</example>
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<example>
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<title>Selecting an output area</title>
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<programlisting>
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&v4l2-cropcap; cropcap;
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&v4l2-crop; crop;
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memset (&cropcap, 0, sizeof (cropcap));
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cropcap.type = V4L2_BUF_TYPE_VIDEO_OUTPUT;
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if (-1 == ioctl (fd, VIDIOC_CROPCAP;, &cropcap)) {
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perror ("VIDIOC_CROPCAP");
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exit (EXIT_FAILURE);
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}
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memset (&crop, 0, sizeof (crop));
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crop.type = V4L2_BUF_TYPE_VIDEO_OUTPUT;
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crop.c = cropcap.defrect;
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/* Scale the width and height to 50 % of their original size
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and center the output. */
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crop.c.width /= 2;
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crop.c.height /= 2;
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crop.c.left += crop.c.width / 2;
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crop.c.top += crop.c.height / 2;
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/* Ignore if cropping is not supported (EINVAL). */
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if (-1 == ioctl (fd, VIDIOC_S_CROP, &crop)
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&& errno != EINVAL) {
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perror ("VIDIOC_S_CROP");
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exit (EXIT_FAILURE);
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}
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</programlisting>
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</example>
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<example>
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<title>Current scaling factor and pixel aspect</title>
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<para>(A video capture device is assumed.)</para>
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<programlisting>
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&v4l2-cropcap; cropcap;
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&v4l2-crop; crop;
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&v4l2-format; format;
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double hscale, vscale;
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double aspect;
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int dwidth, dheight;
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memset (&cropcap, 0, sizeof (cropcap));
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cropcap.type = V4L2_BUF_TYPE_VIDEO_CAPTURE;
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if (-1 == ioctl (fd, &VIDIOC-CROPCAP;, &cropcap)) {
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perror ("VIDIOC_CROPCAP");
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exit (EXIT_FAILURE);
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}
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memset (&crop, 0, sizeof (crop));
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crop.type = V4L2_BUF_TYPE_VIDEO_CAPTURE;
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if (-1 == ioctl (fd, &VIDIOC-G-CROP;, &crop)) {
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if (errno != EINVAL) {
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perror ("VIDIOC_G_CROP");
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exit (EXIT_FAILURE);
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}
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/* Cropping not supported. */
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crop.c = cropcap.defrect;
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}
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memset (&format, 0, sizeof (format));
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format.fmt.type = V4L2_BUF_TYPE_VIDEO_CAPTURE;
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if (-1 == ioctl (fd, &VIDIOC-G-FMT;, &format)) {
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perror ("VIDIOC_G_FMT");
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exit (EXIT_FAILURE);
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}
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/* The scaling applied by the driver. */
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hscale = format.fmt.pix.width / (double) crop.c.width;
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vscale = format.fmt.pix.height / (double) crop.c.height;
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aspect = cropcap.pixelaspect.numerator /
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(double) cropcap.pixelaspect.denominator;
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aspect = aspect * hscale / vscale;
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/* Devices following ITU-R BT.601 do not capture
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square pixels. For playback on a computer monitor
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we should scale the images to this size. */
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dwidth = format.fmt.pix.width / aspect;
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dheight = format.fmt.pix.height;
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</programlisting>
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</example>
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</section>
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</section>
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<section id="streaming-par">
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<title>Streaming Parameters</title>
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<para>Streaming parameters are intended to optimize the video
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capture process as well as I/O. Presently applications can request a
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high quality capture mode with the &VIDIOC-S-PARM; ioctl.</para>
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<para>The current video standard determines a nominal number of
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frames per second. If less than this number of frames is to be
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captured or output, applications can request frame skipping or
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duplicating on the driver side. This is especially useful when using
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the &func-read; or &func-write;, which are not augmented by timestamps
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or sequence counters, and to avoid unnecessary data copying.</para>
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<para>Finally these ioctls can be used to determine the number of
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buffers used internally by a driver in read/write mode. For
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implications see the section discussing the &func-read;
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function.</para>
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<para>To get and set the streaming parameters applications call
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the &VIDIOC-G-PARM; and &VIDIOC-S-PARM; ioctl, respectively. They take
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a pointer to a &v4l2-streamparm;, which contains a union holding
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separate parameters for input and output devices.</para>
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<para>These ioctls are optional, drivers need not implement
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them. If so, they return the &EINVAL;.</para>
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</section>
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