page.title=Android Open Accessory Development Kit
@jd:body
-<div id="qv-wrapper">
-<div id="qv">
- <h2>In this document</h2>
- <ol>
- <li><a href="#getting-started">Getting Started with the ADK</a>
- <ol>
- <li><a href="#installing">Installing the Arduino software and necessary libraries</a></li>
- <li><a href="#installing-firmware">Installing the firmware to the ADK board</a></li>
- <li><a href="#running-demokit">Running the DemoKit Android application</a></li>
- <li><a href="#monitoring">Monitoring the ADK board</a></li>
- </ol>
- </li>
- <li><a href="#how">How an Accessory Communicates with an Android-powered Device
- in Accessory Mode</a>
- <ol>
- <li><a href="#wait">Wait for and detect connected devices</a></li>
- <li><a href="#determine">Determine the connected device's accessory mode support</a></li>
- <li><a href="#start">Attempt to start the device in accessory mode</a></li>
- <li><a href="#establish">Establish communication with the device</a></li>
- </ol>
- </li>
- <li><a href="#firmware">How the ADK board communicates with an Android-powered Device
- in Accessory Mode</a>
- <ol>
- <li><a href="#wait-adk">Wait for and detect connected devices</a></li>
- <li><a href="#determine-adk">Determine the connected device's accessory mode support</a></li>
- <li><a href="#start-adk">Attempt to start the device in accessory mode</a></li>
- <li><a href="#establish-adk">Establish communication with the device</a></li>
- </ol>
- </li>
- </ol>
-</div>
-</div>
-
- <p>The Android 3.1 platform (also backported to Android 2.3.4) introduces Android Open Accessory support, which allows external USB hardware (an Android USB accessory)
- to interact with an Android-powered device in a special "accessory" mode. When an Android-powered powered device is in accessory mode,
- the connected accessory acts as the USB host (powers the bus and enumerates devices) and the Android-powered device acts as the device.
- Android USB accessories are specifically designed to attach to Android-powered devices and
- adhere to a simple protocol (Android accessory protocol) that allows them to detect Android-powered devices that support accessory mode. Accessories must also provide
- 500mA at 5V for charging power. Many previously released
- Android-powered devices are only capable of acting as a USB device and cannot initiate connections with external USB devices. Android Open Accessory support
- overcomes this limitation and allows you to build accessories that can interact with an assortment of Android-powered devices by allowing the accessory
- initiate the connection.</p>
-
- <p class="note"><strong>Note:</strong> Accessory mode is ultimately dependent on the device's hardware
- and not all devices will support accessory mode. Devices that support accessory mode can be filtered using a <code><uses-feature></code>
- element in your corresponding application's Android manifest. For more information, see the <a href="{@docRoot}guide/topics/usb/accessory.html#manifest">USB Accessory</a> Developer
- Guide.</p>
-
- <p>The Android Open Accessory Development Kit (ADK) provides an implementation of an Android USB accessory that is based on the
- <a href="http://www.arduino.cc/">Arduino open source electronics prototyping platform</a>, the accessory's hardware design files,
- code that implements
- the accessory's firmware, and the Android application that interacts with the
- accessory. The hardware design files and code are contained in the <a href="https://dl-ssl.google.com/android/adk/adk_release_0506.zip">ADK package download</a>.
- You can <a href="http://www.rt-net.jp/products/rt-adk">buy the hardware components</a> of the ADK if you do not already have them.
- The main hardware and software components of the ADK include:</p>
+ <div id="qv-wrapper">
+ <div id="qv">
+ <h2>In this document</h2>
+
+ <ol>
+ <li>
+ <a href="#getting-started">Getting Started with the ADK</a>
+
+ <ol>
+ <li><a href="#installing">Installing the Arduino software and necessary
+ libraries</a></li>
+
+ <li><a href="#installing-firmware">Installing the firmware to the ADK board</a></li>
+
+ <li><a href="#running-demokit">Running the DemoKit Android application</a></li>
+
+ <li><a href="#monitoring">Monitoring the ADK board</a></li>
+ </ol>
+ </li>
+
+ <li>
+ <a href="#how">How an Accessory Communicates with an Android-powered Device in Accessory
+ Mode</a>
+
+ <ol>
+ <li><a href="#wait">Wait for and detect connected devices</a></li>
+
+ <li><a href="#determine">Determine the connected device's accessory mode
+ support</a></li>
+
+ <li><a href="#start">Attempt to start the device in accessory mode</a></li>
+
+ <li><a href="#establish">Establish communication with the device</a></li>
+ </ol>
+ </li>
+
+ <li>
+ <a href="#firmware">How the ADK board communicates with an Android-powered Device in
+ Accessory Mode</a>
+
+ <ol>
+ <li><a href="#wait-adk">Wait for and detect connected devices</a></li>
+
+ <li><a href="#determine-adk">Determine the connected device's accessory mode
+ support</a></li>
+
+ <li><a href="#start-adk">Attempt to start the device in accessory mode</a></li>
+
+ <li><a href="#establish-adk">Establish communication with the device</a></li>
+ </ol>
+ </li>
+ </ol>
+
+ <h2>Where to Buy</h2>
+
+ <ol>
+ <li><a href=
+ "http://www.rt-shop.sakura.ne.jp/rt-shop/index.php?main_page=product_info&products_id=2731&language=en">
+ RT Corp</a></li>
+
+ <li><a href=
+ "http://www.microchip.com/android">
+ Microchip</a></li>
+ </ol>
+ </div>
+ </div>
+
+ <p>The Android 3.1 platform (also backported to Android 2.3.4) introduces Android Open Accessory
+ support, which allows external USB hardware (an Android USB accessory) to interact with an
+ Android-powered device in a special "accessory" mode. When an Android-powered powered device is
+ in accessory mode, the connected accessory acts as the USB host (powers the bus and enumerates
+ devices) and the Android-powered device acts as the device. Android USB accessories are
+ specifically designed to attach to Android-powered devices and adhere to a simple protocol
+ (Android accessory protocol) that allows them to detect Android-powered devices that support
+ accessory mode. Accessories must also provide 500mA at 5V for charging power. Many previously
+ released Android-powered devices are only capable of acting as a USB device and cannot initiate
+ connections with external USB devices. Android Open Accessory support overcomes this limitation
+ and allows you to build accessories that can interact with an assortment of Android-powered
+ devices by allowing the accessory initiate the connection.</p>
+
+ <p class="note"><strong>Note:</strong> Accessory mode is ultimately dependent on the device's
+ hardware and not all devices will support accessory mode. Devices that support accessory mode can
+ be filtered using a <code><uses-feature></code> element in your corresponding application's
+ Android manifest. For more information, see the <a href=
+ "{@docRoot}guide/topics/usb/accessory.html#manifest">USB Accessory</a> Developer Guide.</p>
+
+ <p>The Android Open Accessory Development Kit (ADK) provides an implementation of an Android USB
+ accessory that is based on the <a href="http://www.arduino.cc/">Arduino open source electronics
+ prototyping platform</a>, the accessory's hardware design files, code that implements the
+ accessory's firmware, and the Android application that interacts with the accessory. The hardware
+ design files and code are contained in the <a href=
+ "https://dl-ssl.google.com/android/adk/adk_release_0506.zip">ADK package download</a>. You can
+ <a href=
+ "http://www.rt-shop.sakura.ne.jp/rt-shop/index.php?main_page=product_info&products_id=2731&language=en">buy
+ the hardware components</a> of the ADK if you do not already have them. There is also a <a href=
+ "http://www.microchip.com/android">
+ PIC based USB microcontroller</a> that is not based on the ADK design, but that you can still use
+ to create your own Android open accessories. We expect more hardware distributers to create a
+ variety of kits, so please stay tuned for further developments.</p>
+
+ <p>The main hardware and software components of the ADK include:</p>
<ul>
- <li>A USB micro-controller board that is based on the Arduino Mega2560 and Circuits@Home USB Host
- Shield designs (now referred to as the ADK board), which you will later implement as an Android USB accessory.
- The ADK board provides input and output pins that you can implement through the use of attachments called "shields."
- Custom firmware, written in C++, is installed on the board to define the board's functionality and interaction with
- the attached shield and Android-powered device. The hardware design files for the
- board are located in <code>hardware/</code> directory.</li>
-
- <li>An Android Demo Shield (ADK shield) that affixes atop the ADK board implements the
- input and output points on the board. These implementations include a joystick, LED
- outputs, and temperature and light sensors. You can create or buy your own shields or wire
- your own features to the ADK board to implement custom functionality.
- The hardware design files for the shield are located in <code>hardware/</code>.</li>
+ <li>A USB micro-controller board that is based on the Arduino Mega2560 and Circuits@Home USB
+ Host Shield designs (now referred to as the ADK board), which you will later implement as an
+ Android USB accessory. The ADK board provides input and output pins that you can implement
+ through the use of attachments called "shields." Custom firmware, written in C++, is installed
+ on the board to define the board's functionality and interaction with the attached shield and
+ Android-powered device. The hardware design files for the board are located in
+ <code>hardware/</code> directory.</li>
+
+ <li>An Android Demo Shield (ADK shield) that affixes atop the ADK board implements the input
+ and output points on the board. These implementations include a joystick, LED outputs, and
+ temperature and light sensors. You can create or buy your own shields or wire your own features
+ to the ADK board to implement custom functionality. The hardware design files for the shield
+ are located in <code>hardware/</code>.</li>
<li>A library based on the <a href=
"http://www.circuitsathome.com/arduino_usb_host_shield_projects">Arduino USB Host Shield</a>
library provides the logic for the USB micro-controller board to act as a USB Host. This allows
- the board to initiate transactions with USB devices. Describing how to
- use this entire library is out of the scope of this document. Where needed, this document
- points out important interactions with the library. For more information, see the source code
- for the Arduino USB Host Shield library in the
- <code>firmware/arduino_libs/USB_Host_Shield</code> directory.</li>
+ the board to initiate transactions with USB devices. Describing how to use this entire library
+ is out of the scope of this document. Where needed, this document points out important
+ interactions with the library. For more information, see the source code for the Arduino USB
+ Host Shield library in the <code>firmware/arduino_libs/USB_Host_Shield</code> directory.</li>
<li>An Arduino sketch, <code>firmware/demokit/demokit.pde</code>, defines the firmware that
- runs on the ADK board and is written in C++. The sketch calls the Android accessory protocol library
- to interact with the Android-powered device. It also sends data from the ADK board and shield to the Android application
- and receives data from the Android application and outputs it to the ADK board and shield.</li>
+ runs on the ADK board and is written in C++. The sketch calls the Android accessory protocol
+ library to interact with the Android-powered device. It also sends data from the ADK board and
+ shield to the Android application and receives data from the Android application and outputs it
+ to the ADK board and shield.</li>
<li>The Android accessory protocol library, which is located in the
<code>firmware/arduino_libs/AndroidAccessory</code> directory. This library defines how to
<h2 id="getting-started">Getting Started with the ADK</h2>
- <p>The following sections describe how to install the Arduino software on your computer, use the Arduino software
- to install the ADK board's firmware, and install and run the accompanying Android application for the ADK board.
- Before you begin, download the following items to set up your development environment:</p>
+ <p>The following sections describe how to install the Arduino software on your computer, use the
+ Arduino software to install the ADK board's firmware, and install and run the accompanying
+ Android application for the ADK board. Before you begin, download the following items to set up
+ your development environment:</p>
<ul>
<li><a href="http://www.arduino.cc/en/Main/software">Arduino Software</a>: contains libraries
libraries to sense human capacitance. This is needed for the capacative button that is located
on the ADK shield.</li>
- <li><a href="">The ADK package</a>: contains the firmware for the ADK board and
- hardware design files for the ADK board and shield.</li>
+ <li><a href="">The ADK package</a>: contains the firmware for the ADK board and hardware design
+ files for the ADK board and shield.</li>
</ul>
-<h3 id="installing">Installing the Arduino software and necessary libraries</h3>
-<p>To install the Arduino software:</p>
+ <h3 id="installing">Installing the Arduino software and necessary libraries</h3>
+
+ <p>To install the Arduino software:</p>
+
<ol>
- <li><a href="http://arduino.cc/en/Guide/HomePage">Download and install</a> the Arduino Software
- as described on the Arduino website.
-
- <p class="note"><strong>Note:</strong> If you are on a Mac, install the FTDI USB Serial Driver
- that is included in the Arduino package,
- even though the installation instructions say otherwise.</p>
+ <li>
+ <a href="http://arduino.cc/en/Guide/HomePage">Download and install</a> the Arduino Software
+ as described on the Arduino website.
+
+ <p class="note"><strong>Note:</strong> If you are on a Mac, install the FTDI USB Serial
+ Driver that is included in the Arduino package, even though the installation instructions say
+ otherwise.</p>
</li>
- <li><a href="https://dl-ssl.google.com/android/adk/adk_release_0506.zip">Download</a> and extract the ADK package to a directory of your choice. You should have
- an <code>app</code>, <code>firmware</code>, and <code>hardware</code> directories.</li>
+ <li><a href="https://dl-ssl.google.com/android/adk/adk_release_0506.zip">Download</a> and
+ extract the ADK package to a directory of your choice. You should have an <code>app</code>,
+ <code>firmware</code>, and <code>hardware</code> directories.</li>
<li>Extract the CapSense download to a directory of your choice.</li>
<li>Install the necessary libraries:
+
<p>On Windows:</p>
+
<ol type="a">
<li>Copy the <code>firmware/arduino_libs/AndroidAccessory</code> and
<code>firmware/arduino_libs/USB_Host_Shield</code> directories (the complete directories,
</ol>
<p>On Mac:</p>
+
<ol type="a">
<li>Right-click on the Arduino application in Finder and select <strong>Show Package
Contents</strong>.</li>
<li>Copy the <code>firmware/arduino_libs/AndroidAccessory</code> and
<code>firmware/arduino_libs/USB_Host_Shield</code> directories (the complete directories,
- not just the files within) to the <code>Contents/Resources/Java/libraries</code>
- directory inside the Arduino application.</li>
+ not just the files within) to the <code>Contents/Resources/Java/libraries</code> directory
+ inside the Arduino application.</li>
<li>Create a <code>CapSense</code> directory in the
<code>Contents/Resources/Java/libraries</code> directory.</li>
<li>Copy <code>CapSense.cpp</code> and <code>CapSense.h</code> from the unzipped CapSense
download to the <code>CapSense</code> directory.</li>
-
</ol>
-
+
<p>On Linux (Ubuntu):</p>
- <ol type="a">
+
+ <ol type="a">
<li>Copy the <code>firmware/arduino_libs/AndroidAccessory</code> and
<code>firmware/arduino_libs/USB_Host_Shield</code> directories (the complete directories,
- not just the files within) to the <code><arduino_installation_root>/libraries/</code> directory.</li>
+ not just the files within) to the <code><arduino_installation_root>/libraries/</code>
+ directory.</li>
<li>Create a <code>CapSense</code> directory in the
<code><arduino_installation_root>/libraries/</code> directory.</li>
<li>Copy <code>CapSense.cpp</code> and <code>CapSense.h</code> from the unzipped CapSense
download to the <code>CapSense</code> directory.</li>
-
- <li>Install the avr-libc library by entering <code>sudo apt-get install avr-libc</code> from a shell prompt.</li>
+
+ <li>Install the avr-libc library by entering <code>sudo apt-get install avr-libc</code>
+ from a shell prompt.</li>
</ol>
+ </li>
+ </ol>
+
+ <p>You should now have three new directories in the Arduino libraries directory:
+ <code>AndroidAccessory</code>, <code>USB_Host_Shield</code>, and <code>CapSense</code>.</p>
-</li>
-</ol>
- <p>You should now have three new directories in the Arduino libraries directory:
- <code>AndroidAccessory</code>, <code>USB_Host_Shield</code>, and <code>CapSense</code>.</p>
+ <h3 id="installing-firmware">Installing the firmware to the ADK board</h3>
-<h3 id="installing-firmware">Installing the firmware to the ADK board</h3>
-<p>To install the firmware to the ADK board:</p>
-<ol>
- <li>Connect the ADK board to your computer using the micro-USB port, which allows two-way communication and provides power to the ADK board.</li>
+ <p>To install the firmware to the ADK board:</p>
+
+ <ol>
+ <li>Connect the ADK board to your computer using the micro-USB port, which allows two-way
+ communication and provides power to the ADK board.</li>
<li>Launch Arduino.</li>
- <li>Click <strong>Tools > Board > Arduino Mega 2560</strong> to specify the ADK board's type.</li>
+ <li>Click <strong>Tools > Board > Arduino Mega 2560</strong> to specify the ADK board's
+ type.</li>
<li>Select the appropriate USB port:
- <ul>
- <li>On Windows: click <strong>Tools > Serial Port > COM#</strong> to specify the port of
- communication. The COM port number varies depending on your computer. COM1 is usually reserved for serial port
- connections. You most likely want COM2 or COM3. </li>
-
- <li>On Mac: Click <strong>Tools > Serial Port > dev/tty.usbserial-###</strong> to specify the
- port of communication.</li>
-
- <li>On Linux (Ubuntu): Click <strong>Tools > Serial Port > dev/ttyUSB#</strong> to specify the
- port of communication.</li>
- </ul></li>
+
+ <ul>
+ <li>On Windows: click <strong>Tools > Serial Port > COM#</strong> to specify the port
+ of communication. The COM port number varies depending on your computer. COM1 is usually
+ reserved for serial port connections. You most likely want COM2 or COM3.</li>
+
+ <li>On Mac: Click <strong>Tools > Serial Port > dev/tty.usbserial-###</strong> to
+ specify the port of communication.</li>
+
+ <li>On Linux (Ubuntu): Click <strong>Tools > Serial Port > dev/ttyUSB#</strong> to
+ specify the port of communication.</li>
+ </ul>
+ </li>
<li>To open the firmware code (a sketch), click <strong>File > Open</strong> and select
<code>firmware/demokit/demokit.pde</code>.</li>
<li>Click <strong>Sketch > Compile/Verify</strong> to ensure that the sketch has no
errors.</li>
- <li>Select <strong>File > Upload to I/O Board</strong>. When Arduino outputs <strong>Done uploading.</strong>, the board
- is ready to communicate with your Android-powered device.</li>
-
- </ol>
-
+ <li>Select <strong>File > Upload to I/O Board</strong>. When Arduino outputs <strong>Done
+ uploading.</strong>, the board is ready to communicate with your Android-powered device.</li>
+ </ol>
-<h3 id="running-demokit">Running the DemoKit Android application</h3>
+ <h3 id="running-demokit">Running the DemoKit Android application</h3>
<p>The DemoKit Android application runs on your Android-powered device and communicates with the
ADK board. The ADK board receives commands such as lighting up the board's LEDs or sends data
<p>To install and run the application in Eclipse:</p>
<ol>
- <li><a href="http://code.google.com/android/add-ons/google-apis/installing.html">Install the Google APIs API Level 10 add-on library</a>,
- which includes the Open Accessory library for 2.3.4 devices that support accessory mode.
- This library is also forward compatible with Android 3.1 or newer devices that support accessory mode. If you only care
- about Android 3.1 or newer devices, all you need is API Level 12. For more information
- on deciding which API level to use, see the <a href="{@docRoot}guide/topics/USB/accessory.html#choosing">USB Accessory</a> documentation.</li>
- <li>Click <strong>File > New > Project...</strong>, then select <strong>Android > Android Project</strong></li>
- <li>In the <strong>Project name:</strong> field, type DemoKit.
- <li>Choose <strong>Create project from existing source</strong>, click <strong>Browse</strong>, select the
- <code>app</code> directory, and click <strong>Finish</strong>.</li>
+ <li><a href="http://code.google.com/android/add-ons/google-apis/installing.html">Install the
+ Google APIs API Level 10 add-on library</a>, which includes the Open Accessory library for
+ 2.3.4 devices that support accessory mode. This library is also forward compatible with Android
+ 3.1 or newer devices that support accessory mode. If you only care about Android 3.1 or newer
+ devices, all you need is API Level 12. For more information on deciding which API level to use,
+ see the <a href="{@docRoot}guide/topics/USB/accessory.html#choosing">USB Accessory</a>
+ documentation.</li>
+
+ <li>Click <strong>File > New > Project...</strong>, then select <strong>Android >
+ Android Project</strong></li>
+
+ <li>In the <strong>Project name:</strong> field, type DemoKit.</li>
+
+ <li>Choose <strong>Create project from existing source</strong>, click <strong>Browse</strong>,
+ select the <code>app</code> directory, and click <strong>Finish</strong>.</li>
<li>For Build Target, select <strong>Google APIs</strong> (Platform 2.3.3, API Level 10).
- <p class="note"><strong>Note:</strong> Even though the add-on is labeled as
- <strong>2.3.3</strong>, the newest Google API add-on library for API level 10 adds
- USB Open Accessory API support for 2.3.4 devices.</li>
+
+ <p class="note"><strong>Note:</strong> Even though the add-on is labeled as
+ <strong>2.3.3</strong>, the newest Google API add-on library for API level 10 adds USB Open
+ Accessory API support for 2.3.4 devices.</p>
+ </li>
<li>Click <strong>Finish</strong>.</li>
+
<li>Install the application to your device.</li>
- <li>Connect the ADK board (USB-A) to your Android-powered device (micro-USB). Ensure that the power cable to the
- accessory is plugged in or that the micro-USB port on the accesory is connected to your computer
- for power (this also allows you to <a href="monitoring">monitor the ADK board</a>). When
- connected, accept the prompt that asks for whether or not to open the
- DemoKit application to connect to the accessory. If the prompt does not show up, connect and reconnect the accessory.</li>
+ <li>Connect the ADK board (USB-A) to your Android-powered device (micro-USB). Ensure that the
+ power cable to the accessory is plugged in or that the micro-USB port on the accesory is
+ connected to your computer for power (this also allows you to <a href="monitoring">monitor the
+ ADK board</a>). When connected, accept the prompt that asks for whether or not to open the
+ DemoKit application to connect to the accessory. If the prompt does not show up, connect and
+ reconnect the accessory.</li>
</ol>
- <p>You can now interact with the ADK board by moving the color LED or servo sliders (make sure the servos are connected)
- or by pressing the relay buttons in the application. On the ADK shield, you can press the
- buttons and move the joystick to see their outputs displayed in the application.</p>
-
-<h3 id="monitoring">Monitoring the ADK Board</h3>
-<p>The ADK firmware consists of a few files that you should be looking at if you want to build your own accessory.
-The files in the <code>firmware/arduino_libs/AndroidAccessory</code> directory are the most important files and have the logic to detect and connect
-to Android-powered devices that support accessory mode. Feel free to add debug statements (Arduino <code>Serial.print()</code> statements) to the code located in the
-<code>arduino_libraries_directory/AndroidAccessory</code> directory and <code>firmware/demokit/demokit.pde</code> sketch and re-upload the sketch to the ADK board to discover more
-about how the firmware works.</p>
-
-<p>You can view the debug statements in the Arduino Serial Monitor by clicking
-<strong>Tools > Serial Monitor</strong> and setting the baud to 115200.
-The following sections about how accessories communicate with Android-powered
-devices describe much of what you should be doing in your own accessory.</p>
-</p>
+
+ <p>You can now interact with the ADK board by moving the color LED or servo sliders (make sure
+ the servos are connected) or by pressing the relay buttons in the application. On the ADK shield,
+ you can press the buttons and move the joystick to see their outputs displayed in the
+ application.</p>
+
+ <h3 id="monitoring">Monitoring the ADK Board</h3>
+
+ <p>The ADK firmware consists of a few files that you should be looking at if you want to build
+ your own accessory. The files in the <code>firmware/arduino_libs/AndroidAccessory</code>
+ directory are the most important files and have the logic to detect and connect to
+ Android-powered devices that support accessory mode. Feel free to add debug statements (Arduino
+ <code>Serial.print()</code> statements) to the code located in the
+ <code>arduino_libraries_directory/AndroidAccessory</code> directory and
+ <code>firmware/demokit/demokit.pde</code> sketch and re-upload the sketch to the ADK board to
+ discover more about how the firmware works.</p>
+
+ <p>You can view the debug statements in the Arduino Serial Monitor by clicking <strong>Tools >
+ Serial Monitor</strong> and setting the baud to 115200. The following sections about how
+ accessories communicate with Android-powered devices describe much of what you should be doing in
+ your own accessory.</p>
<h2 id="how">How an Accessory Communicates with an Android-powered Device in Accessory Mode</h2>
<p>When you connect an accessory to an Android-powered device, the accessory's firmware must
- carry out some standard steps to set up communication with the Android-powered device. If you are building an
- accessory along with an application, this section goes over some general steps that your firmware
- should carry out.</p>
+ carry out some standard steps to set up communication with the Android-powered device. If you are
+ building an accessory along with an application, this section goes over some general steps that
+ your firmware should carry out.</p>
<p>In general, an accessory should carry out the following steps:</p>
<li>Establish communication with the device if it supports the Android accessory protocol</li>
</ol>
- <h3 id="wait"><p>Wait for and detect connected devices</h3>Your accessory should have logic to
- continuously check for connected Android-powered devices. When a device is connected, your accessory should
+ <h3 id="wait">Wait for and detect connected devices</h3>
+
+ <p>Your accessory should have logic to continuously check
+ for connected Android-powered devices. When a device is connected, your accessory should
determine if the device supports accessory mode.</p>
- <h3 id="determine"><p>Determine the device's accessory mode support</h3>
+ <h3 id="determine">Determine the device's accessory mode support</h3>
+
+
<p>When an Android-powered device is connected, it can be in one of three states:</p>
<ol type="a">
-
<li>The attached device supports Android accessory mode and is already in accessory mode.</li>
+
<li>The attached device supports Android accessory mode, but it is not in accessory mode.</li>
- <li>The attached device does not support Android accessory mode.</li>
-
+ <li>The attached device does not support Android accessory mode.</li>
</ol>
- <p>During the initial connection, the accessory should check the vendor and product IDs of the connected device's USB
- device descriptor. The vendor ID should match Google's ID (0x18D1) and the product ID should be
- 0x2D00 or 0x2D01 if the device is already in accessory mode (case A). If so, the accessory can now <a href=
- "#establish">establish communication with the device</a> through bulk transfer endpoints with its
- own communication protocol. There is no need to start the device in accessory mode.</p>
+ <p>During the initial connection, the accessory should check the vendor and product IDs of the
+ connected device's USB device descriptor. The vendor ID should match Google's ID (0x18D1) and the
+ product ID should be 0x2D00 or 0x2D01 if the device is already in accessory mode (case A). If so,
+ the accessory can now <a href="#establish">establish communication with the device</a> through
+ bulk transfer endpoints with its own communication protocol. There is no need to start the device
+ in accessory mode.</p>
<p class="note"><strong>Note:</strong> 0x2D00 is reserved for Android-powered devices that
support accessory mode. 0x2D01 is reserved for devices that support accessory mode as well as the
implementing a passthrough to ADB on the device.</p>
<p>If the vendor and product ID do not match, there is no way to distinguish between states b and
- c, so the accessory <a href="#start">attempts to start the device in accessory mode</a> to
- figure out if the device is supported.</p>
+ c, so the accessory <a href="#start">attempts to start the device in accessory mode</a> to figure
+ out if the device is supported.</p>
<h3 id="start">Attempt to start the device in accessory mode</h3>
- <p>If the vendor and product IDs do not correspond to an Android-powered device in accessory mode, the accessory
- cannot discern whether the device supports accessory mode and is not in that state, or if the
- device does not support accessory mode at all. This is because devices that support accessory mode but aren't in it
- initially report the device's manufacturer vendor ID and product ID, and not the special Google ones.
- In either case, the accessory should try to start the device
- into accessory mode to figure out if the device supports it. The following steps explain how to do this:</p>
-
+ <p>If the vendor and product IDs do not correspond to an Android-powered device in accessory
+ mode, the accessory cannot discern whether the device supports accessory mode and is not in that
+ state, or if the device does not support accessory mode at all. This is because devices that
+ support accessory mode but aren't in it initially report the device's manufacturer vendor ID and
+ product ID, and not the special Google ones. In either case, the accessory should try to start
+ the device into accessory mode to figure out if the device supports it. The following steps
+ explain how to do this:</p>
+
<ol>
- <li>Send a 51 control request ("Get Protocol") to figure out if the device supports
- the Android accessory protocol. A non-zero number is returned if the protocol is supported, which
- represents the version of the protocol that the device supports (currently, only version 1
- exists). This request is a control request on endpoint 0 with the following characteristics:
- <pre>
+ <li>Send a 51 control request ("Get Protocol") to figure out if the device supports the Android
+ accessory protocol. A non-zero number is returned if the protocol is supported, which
+ represents the version of the protocol that the device supports (currently, only version 1
+ exists). This request is a control request on endpoint 0 with the following characteristics:
requestType: USB_DIR_IN | USB_TYPE_VENDOR
request: 51
value: 0
index: 0
data: protocol version number (16 bits little endian sent from the device to the accessory)
</pre>
-</li>
+ </li>
- <li>If the device returns a proper protocol version, send identifying string information to the device.
- This information allows the device to figure out an appropriate application for this accessory and also present the user
- with a URL if an appropriate application does not exist. These requests
- are control requests on endpoint 0 (for each string ID) with the following characteristics:
- <pre>
+ <li>If the device returns a proper protocol version, send identifying string information to the
+ device. This information allows the device to figure out an appropriate application for this
+ accessory and also present the user with a URL if an appropriate application does not exist.
+ These requests are control requests on endpoint 0 (for each string ID) with the following
+ characteristics:
+ <pre>
requestType: USB_DIR_OUT | USB_TYPE_VENDOR
request: 52
value: 0
data zero terminated UTF8 string sent from accessory to device
</pre>
- <p>The following string IDs are supported, with a maximum size of 256 bytes for each string (must
- be zero terminated with \0).</p>
-<pre>
+ <p>The following string IDs are supported, with a maximum size of 256 bytes for each string
+ (must be zero terminated with \0).</p>
manufacturer name: 1
model name: 2
description: 3
URI: 5
serial number: 6
</pre>
-</li>
+ </li>
- <li>When the identifying strings are sent, request the device start up in accessory mode.
- This request is a control request on endpoint 0 with the following
- characteristics:
- <pre>
+ <li>When the identifying strings are sent, request the device start up in accessory mode. This
+ request is a control request on endpoint 0 with the following characteristics:
+ <pre>
requestType: USB_DIR_OUT | USB_TYPE_VENDOR
request: 53
value: 0
index: 0
data: none
</pre>
-</li>
-</ol>
- <p>After sending the final control request, the connected USB device should re-introduce itself on the bus
- in accessory mode and the accessory can re-enumerate the connected devices. The algorithm jumps back to
- <a href="#determine">determining the device's accessory mode support</a> to check for the
- vendor and product ID. The vendor ID and product ID of the device will be different if the device
- successfully switched to accessory mode and will now correspond to Google's vendor and product
- IDs instead of the device manufacturer's IDs. The accessory can now <a href="#establish">establish communication with the device</a>.</p>
+ </li>
+ </ol>
+
+ <p>After sending the final control request, the connected USB device should re-introduce itself
+ on the bus in accessory mode and the accessory can re-enumerate the connected devices. The
+ algorithm jumps back to <a href="#determine">determining the device's accessory mode support</a>
+ to check for the vendor and product ID. The vendor ID and product ID of the device will be
+ different if the device successfully switched to accessory mode and will now correspond to
+ Google's vendor and product IDs instead of the device manufacturer's IDs. The accessory can now
+ <a href="#establish">establish communication with the device</a>.</p>
<p>If at any point these steps fail, the device does not support Android accessory mode and the
accessory should wait for the next device to be connected.</p>
-
<h3 id="establish">Establish communication with the device</h3>
- <p>If an Android-powered device in accessory mode is detected, the accessory can query the device's interface and
- endpoint descriptors to obtain the bulk endpoints to communicate with the device. An
- Android-powered device that has a product ID of 0x2D00 has one interface with two bulk endpoints for
- input and output communication. A device with product ID of 0x2D01 has two interfaces with two bulk endpoints
- each for input and output communication. The first interface is for standard communication while the second
- interface is for ADB communication. To communicate on an interface, all you need to do is find the first bulk input and output endpoints,
- set the device's configuration to a value of 1 with a SET_CONFIGURATION (0x09) device request, then communicate using the endpoints.</p>
-
-
-
- <h2 id="firmware">How the ADK board communicates with an Android-powered Device in Accessory Mode</h2>
-
- <p>If you have access to the ADK board and shield, the following sections describe the firmware code that you installed onto the ADK board. The firmware demonstrates a practical
- example of how to communicate with an Android-powered device. Even if you do not have the ADK board and shield, reading through how the hardware detects
- and interacts with devices in accessory mode is still useful if you want to port the code over for your own accessories.</p>
-
- <p>The important pieces of the firmware are the <code>accessory/demokit/demokit/demokit.pde</code> sketch, which is the code that
- receives and sends data to the DemoKit application running on the Android-powered device. The
- code to detect and set up communication with the Android-powered device is contained in the
- <code>accessory/arduino_libs/AndroidAccessory/AndroidAccessory.h</code> and <code>accessory/arduino_libs/AndroidAccessory/AndroidAccessory.cpp</code>
- files. This code includes most of the logic that will help you implement your own accessory's firmware.
- It might be useful to have all three of these files open in a text editor as you read through these next sections.</p>
-
- <p>The following sections describe the firmware code in the context of the
- algorithm described in <a href="#how">How an Accessory Communicates with an Android-powered
- Device in Accessory Mode</a>.</p>
+ <p>If an Android-powered device in accessory mode is detected, the accessory can query the
+ device's interface and endpoint descriptors to obtain the bulk endpoints to communicate with the
+ device. An Android-powered device that has a product ID of 0x2D00 has one interface with two bulk
+ endpoints for input and output communication. A device with product ID of 0x2D01 has two
+ interfaces with two bulk endpoints each for input and output communication. The first interface
+ is for standard communication while the second interface is for ADB communication. To communicate
+ on an interface, all you need to do is find the first bulk input and output endpoints, set the
+ device's configuration to a value of 1 with a SET_CONFIGURATION (0x09) device request, then
+ communicate using the endpoints.</p>
+
+ <h2 id="firmware">How the ADK board communicates with an Android-powered Device in Accessory
+ Mode</h2>
+
+ <p>If you have access to the ADK board and shield, the following sections describe the firmware
+ code that you installed onto the ADK board. The firmware demonstrates a practical example of how
+ to communicate with an Android-powered device. Even if you do not have the ADK board and shield,
+ reading through how the hardware detects and interacts with devices in accessory mode is still
+ useful if you want to port the code over for your own accessories.</p>
+
+ <p>The important pieces of the firmware are the
+ <code>accessory/demokit/demokit/demokit.pde</code> sketch, which is the code that receives and
+ sends data to the DemoKit application running on the Android-powered device. The code to detect
+ and set up communication with the Android-powered device is contained in the
+ <code>accessory/arduino_libs/AndroidAccessory/AndroidAccessory.h</code> and
+ <code>accessory/arduino_libs/AndroidAccessory/AndroidAccessory.cpp</code> files. This code
+ includes most of the logic that will help you implement your own accessory's firmware. It might
+ be useful to have all three of these files open in a text editor as you read through these next
+ sections.</p>
+
+ <p>The following sections describe the firmware code in the context of the algorithm described in
+ <a href="#how">How an Accessory Communicates with an Android-powered Device in Accessory
+ Mode</a>.</p>
<h3 id="wait-adk">Wait for and detect connected devices</h3>
- <p>In the firmware code (<code>demokit.pde</code>), the
- <code>loop()</code> function runs repeatedly and calls
- <code>AndroidAccessory::isConnected()</code> to check for any connected devices. If there is a
- connected device, it continuously updates the input and output streams going to and from the
- board and application. If nothing is connected, it continuously checks for a device to be connected:</p>
+ <p>In the firmware code (<code>demokit.pde</code>), the <code>loop()</code> function runs
+ repeatedly and calls <code>AndroidAccessory::isConnected()</code> to check for any connected
+ devices. If there is a connected device, it continuously updates the input and output streams
+ going to and from the board and application. If nothing is connected, it continuously checks for
+ a device to be connected:</p>
<pre>
...
<h3 id="determine-adk">Determine the connected device's accessory mode support</h3>
- <p>When a device is connected to the ADK board, it can already be in accessory mode,
- support accessory mode and is not in that mode, or does not support accessory mode. The
+ <p>When a device is connected to the ADK board, it can already be in accessory mode, support
+ accessory mode and is not in that mode, or does not support accessory mode. The
<code>AndroidAccessory::isConnected()</code> method checks for these cases and responds
accordingly when the <code>loop()</code> function calls it. This function first checks to see if
the device that is connected hasn't already been handled. If not, it gets the connected device's
device descriptor to figure out if the device is already in accessory mode by calling
<code>AndroidAccessory::isAccessoryDevice()</code>. This method checks the vendor and product ID
of the device descriptor. A device in accessory mode has a vendor ID of 0x18D1 and a product ID
- of 0x2D00 or 0x2D01. If the device is in accessory mode, then the ADK board can
-
<a href="#establish-a">establish communication with the device</a>. If not, the board <a href=
+ of 0x2D00 or 0x2D01. If the device is in accessory mode, then the ADK board can <a href=
+ "#establish-a">establish communication with the device</a>. If not, the board <a href=
"start-a">attempts to start the device in accessory mode</a>.</p>
<pre>
bool AndroidAccessory::isConnected(void)
<h3 id="start-adk">Attempt to start the device in accessory mode</h3>
- <p>If the device is not already in accessory mode, then the ADK board must
- determine whether or not it supports it by sending control request 51 to check the version of the
- USB accessory protocol that the device supports (see
- <code>AndroidAccessory::getProtocol()</code>). Protocol version 1 is the only version for now, but this can
- be an integer greater than zero in the future. If
- the appropriate protocol version is returned, the board sends control request 52 (one for each
- string with <code>AndroidAcessory:sendString()</code>) to send it's identifying information, and
- tries to start the device in accessory mode with control request 53. The
+ <p>If the device is not already in accessory mode, then the ADK board must determine whether or
+ not it supports it by sending control request 51 to check the version of the USB accessory
+ protocol that the device supports (see <code>AndroidAccessory::getProtocol()</code>). Protocol
+ version 1 is the only version for now, but this can be an integer greater than zero in the
+ future. If the appropriate protocol version is returned, the board sends control request 52 (one
+ for each string with <code>AndroidAcessory:sendString()</code>) to send it's identifying
+ information, and tries to start the device in accessory mode with control request 53. The
<code>AndroidAccessory::switchDevice()</code> method takes care of this:</p>
<pre>
bool AndroidAccessory::switchDevice(byte addr)
<h3 id="establish-adk">Establish communication with the device</h3>
<p>If a device is detected as being in accessory mode, the accessory must find the proper bulk
- endpoints and set up communication with the device. When the ADK board detects an
- Android-powered device in accessory mode, it calls the
- <code>AndroidAccessory::configureAndroid()</code> function:</p>
+ endpoints and set up communication with the device. When the ADK board detects an Android-powered
+ device in accessory mode, it calls the <code>AndroidAccessory::configureAndroid()</code>
+ function:</p>
<pre>
...
if (isAccessoryDevice(devDesc)) {
...
</pre>
- <p>The <code>AndroidAccessory::findEndpoints()</code> function queries the Android-powered device's
- configuration descriptor and finds the bulk data endpoints in which to communicate with the USB
- device. To do this, it first gets the device's first four bytes of the configuration
+ <p>The <code>AndroidAccessory::findEndpoints()</code> function queries the Android-powered
+ device's configuration descriptor and finds the bulk data endpoints in which to communicate with
+ the USB device. To do this, it first gets the device's first four bytes of the configuration
descriptor (only need descBuff[2] and descBuff[3]), which contains the information about the
total length of data returned by getting the descriptor. This data is used to determine whether
or not the descriptor can fit in the descriptor buffer. This descriptor also contains information
about all the interfaces and endpoint descriptors. If the descriptor is of appropriate size, the
method reads the entire configuration descriptor and fills the entire descriptor buffer with this
- device's configuration descriptor. If for some reason the descriptor is no longer attainable,
- an error is returned.</p>
+ device's configuration descriptor. If for some reason the descriptor is no longer attainable, an
+ error is returned.</p>
<pre>
...
<p>Once the descriptor is in memory, a pointer is assigned to the first position of the buffer
and is used to index the buffer for reading. There are two endpoint pointers (input and output)
that are passed into <code>AndroidAccessory::findEndpoints()</code> and their addresses are set
- to 0, because the code hasn't found any suitable bulk endpoints yet. A loop reads the buffer, parsing
- each configuration, interface, or endpoint descriptor. For each descriptor,
- Position 0 always contains the size of the descriptor in bytes and position 1 always contains the
- descriptor type. Using these two values, the loop skips any configuration and interface
- descriptors and increments the buffer with the <code>descLen</code> variable to get to the next
- descriptor.</p>
+ to 0, because the code hasn't found any suitable bulk endpoints yet. A loop reads the buffer,
+ parsing each configuration, interface, or endpoint descriptor. For each descriptor, Position 0
+ always contains the size of the descriptor in bytes and position 1 always contains the descriptor
+ type. Using these two values, the loop skips any configuration and interface descriptors and
+ increments the buffer with the <code>descLen</code> variable to get to the next descriptor.</p>
<p class="note"><strong>Note:</strong> An Android-powered device in accessory mode can
potentially have two interfaces, one for the default communication to the device and the other
<p>When it finds the first input and output endpoint descriptors, it sets the endpoint pointers
to those addresses. If the findEndpoints() function finds both an input and output endpoint, it
- returns true. It ignores any other endpoints that it finds (the endpoints for the ADB interface, if
- present).</p>
+ returns true. It ignores any other endpoints that it finds (the endpoints for the ADB interface,
+ if present).</p>
<pre>
...
p = descBuff;
</pre>
<p>Back in the <code>configureAndroid()</code> function, if there were endpoints found, they are
- appropriately set up for communication. The device's configuration is set to 1 and the state of the device is set to "running", which
- signifies that the device is properly set up to communicate with your USB accessory. Setting this
- status prevents the device from being re-detected and re-configured in the
- <code>AndroidAccessory::isConnected()</code> function.</p>
+ appropriately set up for communication. The device's configuration is set to 1 and the state of
+ the device is set to "running", which signifies that the device is properly set up to communicate
+ with your USB accessory. Setting this status prevents the device from being re-detected and
+ re-configured in the <code>AndroidAccessory::isConnected()</code> function.</p>
<pre>
bool AndroidAccessory::configureAndroid(void)
{
<p>Lastly, methods to read and write to the appropriate endpoints are needed. The
<code>demokit.pde</code> sketch calls these methods depending on the data that is read from the
- Android-powered device or sent by the ADK board. For instance, moving the joystick
- on the ADK shield writes data that is read by the DemoKit application running on the
- Android-powered device. Moving sliders on the DemoKit application is read by the
- <code>demokit.pde</code> sketch and changes the state of the accessory, such as lighting up or
- changing the color of the LED lights.</p>
+ Android-powered device or sent by the ADK board. For instance, moving the joystick on the ADK
+ shield writes data that is read by the DemoKit application running on the Android-powered device.
+ Moving sliders on the DemoKit application is read by the <code>demokit.pde</code> sketch and
+ changes the state of the accessory, such as lighting up or changing the color of the LED
+ lights.</p>
<pre>
int AndroidAccessory::read(void *buff, int len, unsigned int nakLimit) {
return usb.newInTransfer(1, in, len, (char *)buff, nakLimit); }
</pre>
- <p>See the <code>firmware/demokit/demokit.pde</code> file for information about how the Demo Shield reads and writes data.</p>
+ <p>See the <code>firmware/demokit/demokit.pde</code> file for information about how the ADK board
+ reads and writes data.</p>
\ No newline at end of file
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