478 lines
18 KiB
Plaintext
478 lines
18 KiB
Plaintext
README
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^^^^^^
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This is the README file for the NuttX port to the Atmel AVR32DEV1 board.
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Contents
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^^^^^^^^
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* GPIO Pin Configuration
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* Serial Connection
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* Toolchains
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* Development Environment
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* GNU Toolchains
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* IDEs
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- Makefile Build
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- Native Build
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* AVR32 Bootloader
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- Boot Sequence
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- Link Address
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- Entering the ISP
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- BatchISP
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* Reset
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* Make Tip
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* AVR32DEV1 Configuration Options
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* Configurations
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GPIO Pin Configuration
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^^^^^^^^^^^^^^^^^^^^^^
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The only GPIO pin usage is for LEDs (2) and Buttons (2):
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PIN 13 PA7 LED1
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PIN 14 PA8 LED2
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PIN 24 PB2 KEY1
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PIN 25 PB3 KEY2
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(See configs/avr32dev/src/avr32dev_internal.h). And also for
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crystals (4), JTAG (1), and USB (1):
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PIN 30 PA11 XIN32
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PIN 31 PA12 XOUT32
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PIN 35 PA15 EVTO (JTAG)
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PIN 39 PA18 X1IN
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PIN 40 PA19 X1OUT
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PIN 61 PA26 ID (USB)
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All GPIO pins are brought out through connectors J1 (PINS 33-64)
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and J2 (PINS 1-32).
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NOTE: There seems to be some difference in labeling for OSC0 and
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OSC1 between MCUZone.com and Atmel:
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Oscillator pinout
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-------------------------- --------------------
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QFP48 QFP64 Pad Oscillator AVR32DEV1
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PIN PIN PIN LABEL
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----- ----- ---- --------- --------------------
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30 39 PA18 XIN0 X1IN (12MHz)
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41 PA28 XIN1 PA28 (no crystal)
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22 30 PA11 XIN32 XIN32 (32KHz)
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31 40 PA19 XOUT0 X1OUT (12Mhz)
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42 PA29 XOUT1 PA29 (no crystal)
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23 31 PA12 XOUT32 XOUT32 (32 Khz)
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----- ----- ---- --------- --------------------
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NOTE 1: These crystal inputs/outputs are analog signals and my
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assumption is that they need no pin multiplexing setting to
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enable them for the external crystal function.
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NOTE 2: There is no support for OSC1.
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NOTE 3: There are solder pads for the 32KHz OSC32, but the
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crystal is not populated on my board. Therefore, the RTC will
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have to run from the (uncalibrated) RCOSC.
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Serial Connection
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^^^^^^^^^^^^^^^^^
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USART1 is the default USART1 used in the configuration files to
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provide a serial console (of course, that can be easily changed
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by editting the configuration file). The AVR32DEV1 board has no
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RS-232 drivers or connectors on board. I use an off-board MAX232
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module that I got on eBay (search for MAX232 if you want to find
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one). I connect the MAX232 board as follows:
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In configs/avr32dev/include/board.h:
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#define PINMUX_USART1_RXD PINMUX_USART1_RXD_1
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#define PINMUX_USART1_TXD PINMUX_USART1_TXD_1
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In arch/avr/src/at32uc3/at32uc3b_pinmux.h:
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#define PINMUX_USART1_RXD_1 (GPIO_PERIPH | GPIO_FUNCD | GPIO_PORTA | 17)
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#define PINMUX_USART1_TXD_1 (GPIO_PERIPH | GPIO_FUNCA | GPIO_PORTA | 23)
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PA17 and PA23 are avaiable from the AVR32DEV1:
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FUNC GPIO PIN Header 16X2 (J1) MX232 Board
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---- ----- ----- ---------------- ------------
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RXD PA17 PIN37 Pin 5 PIN4 RXD (5V TTL/CMOS)
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TXD PA23 PIN47 Pin 15 PIN3 TXD (5V TTL/CMOS)
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PIN2 GND
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PIN1 VCC (5V)
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Voltage on GPIO Pins with respect to Ground for TCK, RESET_N, PA03-PA08,
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PA11-PA12, PA18-PA19, PA28-PA31............................-0.3 to 3.6V
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Other Pins ............................................... -0.3 to 5.5V
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I get the 5V from another USB port (using the 5V power cable that normally
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provides the extra current needed by my USB IDE drive).
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Development Environment
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^^^^^^^^^^^^^^^^^^^^^^^
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Linux, Mac OS X or Cygwin on Windows can be used for the development environment.
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The source has been built only using the GNU toolchain (see below). Other
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toolchains will likely cause problems. Testing was performed using the Cygwin
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environment.
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GNU Toolchains
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^^^^^^^^^^^^^^
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Atmel Toolchain:
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The build logic in these directories assume that you are using the GNU
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toolchain with the Atmel patches. The patch file, pre-patched tool
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sources,and pre-built binaries are available from the Atmel website.
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CONFIG_AVR32_AVRTOOLSW=y # Use the windows version
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CONFIG_AVR32_AVRTOOLSL=y # Ue the Linux version
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NOTE: The NuttX builtroot cannot be used to build the AVR32 toolchain.
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This is because the Atmel patches that add support for the AVR32 are not
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included in the NuttX buildroot.
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WinAVR:
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Another option for use under Windows is WinAVR:
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http://sourceforge.net/projects/winavr/files/. WinAVR includes the
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AVR32 toolchain as well as the AVR toolchain and various support
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libraries and header files.
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AVR32 Toolchain Builder:
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A third option is to build the toolchain yourself. For OS X and Linux systems,
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this Makefile will build a complete gcc-4.4.3 toolchain:
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https://github.com/jsnyder/avr32-toolchain
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By default the toolchain installs into ${HOME}/avr-32-tools-<somedate> and
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the bin subdirectory must be added to your path before compiling.
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IDEs
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^^^^
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NuttX is built using command-line make. It can be used with an IDE, but some
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effort will be required to create the project.
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Makefile Build
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--------------
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Under Eclipse, it is pretty easy to set up an "empty makefile project" and
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simply use the NuttX makefile to build the system. That is almost for free
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under Linux. Under Windows, you will need to set up the "Cygwin GCC" empty
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makefile project in order to work with Windows (Google for "Eclipse Cygwin" -
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there is a lot of help on the internet).
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Native Build
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------------
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Here are a few tips before you start that effort:
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1) Select the toolchain that you will be using in your .config file
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2) Start the NuttX build at least one time from the Cygwin command line
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before trying to create your project. This is necessary to create
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certain auto-generated files and directories that will be needed.
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3) Set up include pathes: You will need include/, arch/avr/src/at32uc3,
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arch/avr/src/common, arch/arm/src/avr, and sched/.
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4) All assembly files need to have the definition option -D __ASSEMBLY__
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on the command line.
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Startup files will probably cause you some headaches. The NuttX startup file
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is arch/avr/src/avr3/up_nommuhead.S.
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AVR32 Bootloader
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^^^^^^^^^^^^^^^^
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Boot Sequence
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-------------
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"An AVR UC3 part having the bootloader programmed resets as any other
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part at 80000000h. Bootloader execution begins here. The bootloader
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first performs the boot process to know whether it should start the
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USB DFU ISP or the application. If the tested conditions indicate
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that the USB DFU ISP should be started, then execution continues in
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the bootloader area, i.e. between 80000000h and 80002000h, else
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the bootloader launches the application at 80002000h."
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Link Address
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------------
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The linker scripts (ld.script) assume that you are using the DFU
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bootloader. The bootloader resides at 0x8000:0000 and so the ld.script
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files link the application to execute after the bootloader at
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0x8000:2000. To link so that NuttX boots directly without using the
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bootloader, change the flash definition from:
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flash (rxai!w) : ORIGIN = 0x80002000, LENGTH = 256K - 8K
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to:
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flash (rxai!w) : ORIGIN = 0x80000000, LENGTH = 256K
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Or to use the MSC bootloader:
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flash (rxai!w) : ORIGIN = 0x80008000, LENGTH = 256K - 32K
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Entering the ISP
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----------------
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In order to use the USB port to download the FLASH(ISP), you need to
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use the S3(PA13) to make CPU return to boot status. In this mode, the
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on chip bootloader will run, making the ISP possible.
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BatchISP
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--------
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Unlike other Atmel parts, the AVR32 will not work with the FLIP GUI
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program. Instead, you must use the command-line loader call BatchISP.
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If need to download FLIP from the atmel.com website, install the USB
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driver in the FLIP usb directory. Then in the bin directory where
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you installed FLIP, you will also find batchisp.exe.
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NOTE: The AVR32DEV1 setenv.sh files will add the path to the BatchISP
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bin directory to the Cygwin PATH variable. If you use a different
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version of FLIP or if you install FLIP in a different location, you
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will need to modify the setenv.sh files.
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Notes from "AVR32 UC3 USB DFU Bootloader" (doc7745.pdf)
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"To launch BatchISP, open a command prompt. Windows or Cygwin command
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prompt can be used provided that the bin folder of the FLIP installation
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directory is in the PATH (Windows<77> or Cygwin<69>s) environment variable.
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When running BatchISP on AT32UC3xxxxx, the target part has to be specified
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with -device at32uc3xxxxx and the communication port with -hardware usb.
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Commands can then be placed after -operation. These commands are executed
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in order. BatchISP options can be placed in a text file invoked using
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-cmdfile rather than on the command line.
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"BatchISP works with an internal ISP buffer per target memory. These ISP
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buffers can be filled from several sources. All target operations (program,
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verify, read) are performed using these buffers."
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The following BatchISP command line will erase FLASH, write the nuttx binary
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into FLASH, and reset the AVR32. This command line is available in the
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script config/avr32dev1/tools/doisp.sh:
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batchisp -device at32uc3b0256 -hardware usb -operation erase f memory flash \
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blankcheck loadbuffer nuttx.elf program verify start reset 0
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"BatchISP main commands available on AT32UC3xxxxx are:
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- ASSERT { PASS | FAIL } changes the displayed results of the following
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operations according to the expected behavior.
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- ONFAIL { ASK | ABORT | RETRY | IGNORE } changes the interactive behavior
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of BatchISP in case of failure.
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- WAIT <Nsec> inserts a pause between two ISP operations.
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- ECHO <comment> displays a message.
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- ERASE F erases internal flash contents, except the bootloader.
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- MEMORY { FLASH | SECURITY | CONFIGURATION | BOOTLOADER | SIGNATURE | USER }
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selects a target memory on which to apply the following operations.
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- ADDRANGE <addrMin> <addrMax> selects in the current target memory an
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address range on which to apply the following operations.
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- BLANKCHECK checks that the selected address range is erased.
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- FILLBUFFER <data> fills the ISP buffer with a byte value.
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- LOADBUFFER { <in_elffile> | <in_hexfile> } loads the ISP buffer from an
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input file.
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- PROGRAM programs the selected address range with the ISP buffer.
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- VERIFY verifies that the selected address range has the same contents
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as the ISP buffer.
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- READ reads the selected address range to the ISP buffer.
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- SAVEBUFFER <out_hexfile> { HEX386 | HEX86 } saves the ISP buffer to an
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output file.
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- START { RESET | NORESET } 0 starts the execution of the programmed
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application with an optional hardware reset of the target.
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"The AT32UC3xxxxx memories made available by BatchISP are:
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- FLASH: This memory is the internal flash array of the target, including the
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bootloader protected area. E.g. on AT32UC3A0512 (512-kB internal flash),
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addresses from 0 to 0x7FFFF can be accessed in this memory.
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- SECURITY: This memory contains only one byte. The least significant bit
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of this byte reflects the value of the target Security bit which can only
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be set to 1. Once set, the only accepted commands will be ERASE and START.
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After an ERASE command, all commands are accepted until the end of the
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non-volatile ISP session, even if the Security bit is set.
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- CONFIGURATION: This memory contains one byte per target general-purpose
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fuse bit. The least significant bit of each byte reflects the value of
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the corresponding GP fuse bit.
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- BOOTLOADER: This memory contains three bytes concerning the ISP: the ISP
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version in BCD format without the major version number (always 1), the
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ISP ID0 and the ISP ID1.
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- SIGNATURE: This memory contains four bytes concerning the part: the product
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manufacturer ID, the product family ID, the product ID and the product
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revision.
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- USER: This memory is the internal flash User page of the target, with
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addresses from 0 to 0x1FF.
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"For further details about BatchISP commands, launch batchisp -h or see the
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help files installed with FLIP ..."
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Reset
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^^^^^
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I don't trust the reset button -- if you reset and something weird happens,
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try a full power cycle.
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Make Tip
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^^^^^^^^
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Because this build uses a native Windows toolchain and the native Windows
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tools do not understand Cygwin's symbolic links, the NuttX make system does
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something weird: It copies the configuration directories instead of linking
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to them (it could, perhaps, use the NTFS 'mklink' command, but it doesn't).
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A consequence of this is that you can easily get confused when you edit
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a file in one of the "linked" directories, re-build NuttX, and then not see your
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changes when you run the program. That is because build is still using the
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version of the file in the copied directory, not your modified file! To work
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around this annoying behavior, do the following when you re-build:
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make clean_context all <-- Remove and re-copy all of the directories, then make all
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doisp.sh <-- Load the code onto the board.
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AVR32DEV1 Configuration Options
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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CONFIG_ARCH - Identifies the arch/ subdirectory. This should
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be set to:
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CONFIG_ARCH=avr
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CONFIG_ARCH_family - For use in C code:
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CONFIG_ARCH_AVR=y
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CONFIG_ARCH_architecture - For use in C code:
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CONFIG_ARCH_FAMILY_AVR32=y
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CONFIG_ARCH_CHIP - Identifies the arch/*/chip subdirectory
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CONFIG_ARCH_CHIP=at32uc3
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CONFIG_ARCH_CHIP_name - For use in C code to identify the exact
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chip:
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CONFIG_ARCH_CHIP_AT32UC3B0256
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CONFIG_ARCH_BOARD - Identifies the configs subdirectory and
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hence, the board that supports the particular chip or SoC.
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CONFIG_ARCH_BOARD=avr32dev1 (for the AV32DEV1 board)
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CONFIG_ARCH_BOARD_name - For use in C code
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CONFIG_ARCH_BOARD_AVR32DEV1
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CONFIG_ARCH_LOOPSPERMSEC - Must be calibrated for correct operation
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of delay loops
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CONFIG_ENDIAN_BIG - define if big endian (default is little
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endian)
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CONFIG_RAM_SIZE - Describes the installed DRAM (SRAM in this case):
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CONFIG_RAM_SIZE=0x00010000 (64Kb)
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CONFIG_RAM_START - The start address of installed DRAM
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CONFIG_RAM_START=0x20000000
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CONFIG_ARCH_LEDS - Use LEDs to show state. Unique to boards that
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have LEDs
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CONFIG_ARCH_INTERRUPTSTACK - This architecture supports an interrupt
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stack. If defined, this symbol is the size of the interrupt
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stack in bytes. If not defined, the user task stacks will be
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used during interrupt handling.
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CONFIG_ARCH_STACKDUMP - Do stack dumps after assertions
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CONFIG_ARCH_LEDS - Use LEDs to show state. Unique to board architecture.
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CONFIG_ARCH_CALIBRATION - Enables some build in instrumentation that
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cause a 100 second delay during boot-up. This 100 second delay
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serves no purpose other than it allows you to calibratre
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CONFIG_ARCH_LOOPSPERMSEC. You simply use a stop watch to measure
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the 100 second delay then adjust CONFIG_ARCH_LOOPSPERMSEC until
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the delay actually is 100 seconds.
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Individual subsystems can be enabled:
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CONFIG_AVR32_GPIOIRQ - GPIO interrupt support
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CONFIG_AVR32_GPIOIRQSETA - Set of GPIOs on PORTA that support interrupts
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CONFIG_AVR32_GPIOIRQSETB - Set of GPIOs on PORTB that support interrupts
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CONFIG_AVR32_USARTn - Enable support for USARTn
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CONFIG_AVR32_USARTn_RS232 - Configure USARTn as an RS232 interface.
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CONFIG_AVR32_USARTn_SPI - Configure USARTn as an SPI interface.
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CONFIG_AVR32_USARTn_RS485 - Configure USARTn as an RS485 interface.
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CONFIG_AVR32_USARTn_MAN - Configure USARTn as an Manchester interface.
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CONFIG_AVR32_USARTn_MODEM - Configure USARTn as an Modem interface.
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CONFIG_AVR32_USARTn_IRDA - Configure USARTn as an IRDA interface.
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CONFIG_AVR32_USARTn_ISO786 - Configure USARTn as an ISO786 interface.
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AT32UC3B0256 specific device driver settings
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CONFIG_USARTn_SERIAL_CONSOLE - selects the USARTn for the
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console and ttys0 (default is the USART0).
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CONFIG_USARTn_RXBUFSIZE - Characters are buffered as received.
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This specific the size of the receive buffer
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CONFIG_USARTn_TXBUFSIZE - Characters are buffered before
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being sent. This specific the size of the transmit buffer
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CONFIG_USARTn_BAUD - The configure BAUD of the USART. Must be
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CONFIG_USARTn_BITS - The number of bits. Must be either 7 or 8.
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CONFIG_USARTn_PARTIY - 0=no parity, 1=odd parity, 2=even parity
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CONFIG_USARTn_2STOP - Two stop bits
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Configurations
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^^^^^^^^^^^^^^
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Common Configuration Notes
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--------------------------
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1. Each Atmel AVR32DEV configuration is maintained in a sub-directory and
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can be selected as follow:
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cd tools
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./configure.sh avr32dev1/<subdir>
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cd -
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. ./setenv.sh
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Where <subdir> is one of the configuration sub-directories described in
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the following paragraph.
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(Use configure.bat instead of configure.sh in a native Windows environment).
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2. These configurations use the mconf-based configuration tool. To
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change a configurations using that tool, you should:
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a. Build and install the kconfig-mconf tool. See nuttx/README.txt
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and misc/tools/
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b. Execute 'make menuconfig' in nuttx/ in order to start the
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reconfiguration process.
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3. By default, all configurations assume the AVR toolchain under Cygwin
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with Windows. This is easily reconfigured:
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CONFIG_HOST_WINDOWS=y
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CONFIG_WINDOWS_CYGWIN=y
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CONFIG_AVR32_AVRTOOLSW=y
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Configuration Sub-Directories
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-----------------------------
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nsh:
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Configures the NuttShell (nsh) located at examples/nsh. The
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Configuration enables only the serial NSH interface.
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ostest:
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This configuration directory, performs a simple OS test using
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examples/ostest.
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NOTE: Round-robin scheduling is disabled in this test because
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the RR test in examples/ostest declares data structures that
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are too large for the poor little uc3 SRAM.
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