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README
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UVC gadget test application Readme
Copyright (C) 2010 Ideas on board SPRL
Copyright (C) 2013 ST Microelectronics Ltd.
Contacts:
Laurent Pinchart <laurent.pinchart@xxxxxxxxxxxxxxxx>
Bhupesh Sharma <bhupesh.sharma@xxxxxx>
Introduction
============
This README file documents the UVC gadget test application available
here git://git.ideasonboard.org/uvc-gadget.git, which can be used to
test the UVC webcam gadget driver located under drivers/usb/gadget
directory.
Possible Use-Case scenarios
===========================
There can be a number of scenarios under which the UVC webcam gadget can
be used and each use-case can vary in the following ways:
- Video streaming endpoint choice:
--------------------------------
As per UVC specifications (Revision 1.1), either Bulk or Isochronous
USB endpoints can be used are for implementing UVC Video streaming
interface. Both have there unique challenges as:
Isochronous video streaming interface will have two
alt-settings:
- Alt-setting 0 for zero-bandwidth mode, and
- Alt-setting 1 for full-bandwidth mode.
This requires us to ACK status stage of SET_ALT(alt-setting =
1), only when we have video frames available which can be queued
to UVC domain.
Bulk video streaming interface, on the other hand will have only
one alt-setting.
This requires us to prepare UVC gadget for streaming when we
receive a a UVC_VS_COMMIT_CONTROL command from USB host and
actually start streaming as soon as we have video frames
available which can be queued to UVC domain.
- Availability of a video capture device:
---------------------------------------
To emulate a real UVC webcam gadget (capturing live video from a video
capture source and sending it over USB bus), it is possible to
integrate a V4L2 based video-capture device driver with the UVC gadget
test application acting as an interface between the UVC based
video-output device and V4L2 based video-capture device.
Accordingly, there can be the following scenarios possible:
- No video capture device available:
In this case, there is no video capture device available
and the UVC webcam gadget is working in an standalone
environment.
It is possible in this case to stream a dummy test
pattern from the UVC webcam gadget and view the same on
the Linux/Windows USB Host machine using standard video
capture utilities like CHEESE.
- VIVI (Virtual Video driver) acting as a video capture source:
In case we don't have a real video capture hardware
(e.g. sensor) available, it is still possible to
exercise the complete path from the V4L2 based
video-capture domain to UVC based video-output domain,
using the Virtual Video driver (VIVI) available here:
drivers/media/platform/vivi.c
It is possible in this case to stream changing vertical
color bar pattern pattern from the VIVI capture device
and send it to UVC webcam gadget, which will eventually
send these frames over USB bus.
Similar to the case above, it is possible to view the
frames on the Linux/Windows USB Host machine using
standard video capture utilities like CHEESE.
- Real video capture hardware and corresponding V4L2 driver
available:
In this case, we have a real video capture hardware
(e.g. CCD / CMOS sensor) available.
Here, it is possible to exercise the complete path from
the V4L2 based video-capture driver domain to UVC based
video-output domain, using the UVC gadget test
application.
It is possible in this case to stream real video/still
images from capture source and send it to UVC webcam
gadget, which will eventually send these frames over USB
bus.
- IO methods supported:
--------------------
V4L2 framework supports a number of IO methods and to achieve
zero-memcpy of video frames as they pass from V4L2 video-capture
domain to UVC video-output domain, it is important to select
appropriate IO methods for working on videobuffers.
Accordingly we can have the following scenarios possible:
- UVC webcam standalone, supporting IO_METHOD_MMAP method:
In this case, there is no video capture device available
and the UVC webcam gadget is working in an standalone
environment.
It is supporting IO_MMAP method, which implies that the
videobuffers are allocated by the UVC webcam gadget
itself and they are filled with dummy test pattern by
UVC gadget test application.
- UVC webcam standalone, supporting IO_METHOD_USERPTR method:
In this case, there is no video capture device available
and the UVC webcam gadget is working in an standalone
environment.
It is supporting IO_METHOD_USERPTR method, which implies
that the videobuffers are allocated and filled with
dummy test pattern by the UVC gadget test application
and UVC webcam gadget operates on a USERPTR of these
videobuffers.
- UVC webcam integrated with V4L2 video-capture driver, with
V4L2 video-capture driver supporting IO_METHOD_MMAP method and
UVC webcam supporting IO_METHOD_USERPTR:
In this case, either VIVI or another V4L2 based driver
(working on real HW) is available as a video capture
device and is integrated with the UVC webcam gadget via
UVC gadget test application, with V4L2 video-capture
driver supporting IO_METHOD_MMAP method and UVC webcam
supporting IO_METHOD_USERPTR.
Here, the videobuffers are allocated in the V4L2
video-capture domain and UVC gadget test application
acts as a means to pass a USERPTR of these videobuffers
to the UVC webcam gadget domain, without requiring any
memcpy from the CPU.
- UVC webcam integrated with V4L2 video-capture driver, with
V4L2 video-capture driver supporting IO_METHOD_USERPTR method
and UVC webcam supporting IO_METHOD_MMAP:
In this case, either VIVI or another V4L2 based driver
(working on real HW) is available as a video capture
device and is integrated with the UVC webcam gadget via
UVC gadget test application, with V4L2 video-capture
driver supporting IO_METHOD_USERPTR method and UVC
webcam supporting IO_METHOD_MMAP.
Here, the videobuffers are allocated in the UVC webcam
gadget domain and UVC gadget test application acts as a
means to pass a USERPTR of these videobuffers to the
V4L2 video-capture domain, without requiring any memcpy
from the CPU.
Modifying UVC gadget test application
=====================================
The UVC webcam gadget kernel driver located under drivers/usb/gadget
directory and compilable as g_webcam.ko kernel module, supports 360p and
720p frame resolutions and YUV4:2:2 and MJPEG frame formats by default.
So, the video capture device must be aligned to support similar frame
format and resolutions.
In case the video capture device supports other resolutions and frame
formats, we need to replace the default values used in the UVC gadget
test application with the same and also update the UVC webcam gadget
kernel driver.
Keeping USBCV's UVC test-suite happy
====================================
The UVC webcam gadget kernel driver located under drivers/usb/gadget
directory and compilable as g_webcam.ko kernel module, supports changing
the Brightness attribute of the Processing Unit (PU) by default.
If the underlying video capture device supports changing the Brightness
attribute of the image being acquired (like the Virtual Video, VIVI
driver does), then we should route this UVC request to the respective
video capture device.
Incase, there is no actual video capture device associated with the UVC
gadget and we wish to use this application as the final destination of
the UVC specific requests then we should return pre-cooked (static)
responses to GET_CUR(BRIGHTNESS) and SET_CUR(BRIGHTNESS) commands to
keep command verifier test tools like UVC class specific test suite of
USBCV, happy.
Note that the values used in UVC gadget test application are in sync
with the VIVI driver and must be changed for your specific video capture
device. These values also work well in case there in no actual video
capture device.