Provided by: dfu-programmer_0.6.1-1build1_amd64 
NAME
dfu-programmer - USB firmware upgrading for Atmel microcontrollers
SYNOPSIS
dfu-programmer target[:usb-bus,usb-addr] command [options] [parameters]
dfu-programmer --help
dfu-programmer --targets
dfu-programmer --version
DESCRIPTION
dfu-programmer is a multi-platform command line Device Firmware Upgrade (DFU) based
programmer for the flash memory on Atmel AVR, AVR32, XMEGA and 8051 based microcontrollers
which ship with a USB boot loader. It supports In System Programming (ISP) for developers
and potentially product updates in the field. Those boot loaders are patterned after the
standard USB DFU 1.0 class specification, but depend on extensions defined by Atmel to the
extent that standard DFU drivers will not work.
To use it, first connect the device to be programmed and ensure that it comes up in DFU
mode. The microcontrollers come up in that mode as shipped by Atmel; or they may reenter
that mode after a special hardware reset. Then invoke this program to issue one or more
DFU commands. You will normally need to start by issuing the "erase" command; the default
security policies prevent extracting firmware, to prevent reverse engineering of what is
usually proprietary code.
SUPPORTED MICROCONTROLLERS
These chip names are used as the command line "target" parameter.
8051 based controllers:
at89c51snd1c, at89c51snd2c, at89c5130, at89c5131, and at89c5132.
AVR based controllers:
at90usb1287, at90usb1286, at90usb647, at90usb646, at90usb162, at90usb82,
atmega32u6, atmega32u4, atmega32u2, atmega16u4, atmega16u2 and atmega8u2.
AVR32 based controllers:
at32uc3a0128, at32uc3a1128, at32uc3a0256, at32uc3a1256, at32uc3a0512, at32uc3a1512,
at32uc3a0512es, at32uc3a1512es, at32uc3a364, at32uc3a364s, at32uc3a3128,
at32uc3a3128s, at32uc3a3256, at32uc3a3256s, at32uc3a4256s, at32uc3b064,
at32uc3b164, at32uc3b0128, at32uc3b1128, at32uc3b0256, at32uc3b1256,
at32uc3b0256es, at32uc3b1256es, at32uc3b1512, at32uc3b0512, at32uc3c064,
at32uc3c0128, at32uc3c0256, at32uc3c0512, at32uc3c164, at32uc3c1128, at32uc3c1256,
at32uc3c1512, at32uc3c264, at32uc3c2128, at32uc3c2256 and at32uc3c2512.
XMEGA based controllers:
atxmega64a1u, atxmega128a1u, atxmega64a3u, atxmega128a3u, atxmega192a3u,
atxmega256a3u, atxmega16a4u, atxmega32a4u, atxmega64a4u, atxmega128a4u,
atxmega256a3bu, atxmega64b1, atxmega128b1, atxmega64b3, atxmega128b3, atxmega64c3,
atxmega128c3, atxmega256c3, atxmega384c3
USAGE
There are no mechanisms to implement gang programming. By default, the first device that
matches the id codes for the given target is selected. Many targets share the same id
codes. Accordingly, you will usually avoid connecting more than one device of a given
family (AVR, XMEGA, AVR32 or 8051) at a time.
The target may be qualified with the USB bus and address number of the device you wish to
program. This allows programming multiple devices of the same family at the same time.
All of these commands support the "global options". Unless you override it, commands
which write to the microcontroller will perform a validation step that rereads the data
which was written, compares it to the expected result, and reports any errors.
Note that unlike Atmel's BatchISP program, dfu-programmer will only perform a single
operation at a time. Erasing and programming require separate commands.
configure register [--suppress-validation] data
Bootloaders for 8051 based controllers support writing certain configuration bytes.
dump
Reads all the available flash memory, and writes it as binary data to stdout.
dump-eeprom
Reads all the available eeprom memory, and writes it as binary data to stdout.
dump-user
Reads the user space flash on the AVR32 chips and writes it as binary data to
stdout.
erase [--suppress-validation]
Erases all the flash memory. This is required before the bootloader will perform
other commands.
flash [--suppress-validation] [--suppress-bootloader-mem] [--serial=hexbytes:offset] file
or STDIN
Writes flash memory. The input file (or stdin) must use the "ihex" file format
convention for a memory image. --suppress-bootloader-mem ignores any data written
to the bootloader memory space when flashing the device. This option is
particularly useful for the AVR32 chips trampoline code.
--serial provides a way to inject a serial number or other unique sequence of bytes into
the memory image programmed into the device. This allows using a single .ihex file to
program multiple devices, and still give each device its own unique serial number. For
example, --serial=ABCDEF01:0x6000 would program the byte at 0x6000 with the hex value AB,
the byte at 0x6001 with the value CD, and so on. There must be an even number of hex
digits, but the sequence can be any length. The offset is assumed to be given in hex if it
starts with a "0x" prefix, octal if it begins with a "0", otherwise is it assumed to be
decimal.
flash-user [--suppress-validation] [--serial=hexbytes:offset] file or STDIN
Writes to user space flash on the AVR32 chips. This block of flash is out of the
normal range of flash blocks and is designed to contain configuration parameters.
The input file (or stdin) must use the "ihex" file format convention for a memory
image.
flash-eeprom [--suppress-validation] [--serial=hexbytes:offset] file or STDIN
Writes to eeprom memory. The input file (or stdin) must use the "ihex" file format
convention for a memory image.
setsecure
Sets the security bit on AVR32 chips. This prevents the content being read back
from the chip, except in the same session in which it was programmed. When the
security fuse is set, almost nothing will work without first executing the erase
command. The only way to clear the security fuse once set is to use a JTAG chip
erase, which will also erase the bootloader.
get register
Displays various product identifier bytes.
reset
Resets microcontroller using watchdog timer
start
Starts the application firmware by having the microcontroller jump to address zero.
Global Options
--quiet - minimizes the output
--debug level - enables verbose output at the specified level
Configure Registers
The standard bootloader for 8051 based chips supports writing data bytes which are not
relevant for the AVR based chips.
BSB - boot status byte
SBV - software boot vector
SSB - software security byte
EB - extra byte
HSB - hardware security byte
Get Register
bootloader-version - currently flashed bootloader version
ID1 - device boot identification 1
ID2 - device boot identification 2
manufacturer - the hardware manufacturer code
family - the product family code
product-name - the product name
product-revision - the product revision
HSB - same as the configure_register version
BSB - same as the configure_register version
SBV - same as the configure_register version
SSB - same as the configure_register version
EB - same as the configure_register version
BUGS
None known.
KNOWN ISSUES
The at90usb series chips do not make available any read/write protect flags so the dump or
flash command may fail with a less than helpful error message.
To remove any write or read protection from any chips, a full chip erasure is required.
For AVR32 chips an erase operation over USB will remove protection until the device is
rebooted. To remove the protection more permanently requires a JTAG erase (which will also
erase the bootloader).
You may need to be a member of the uucp group in order to have access to the device
without needing to be root.
AUTHOR
Weston Schmidt <weston_schmidt@alumni.purdue.edu>
SEE ALSO
http://dfu-programmer.sourceforge.net http://www.atmel.com/Images/doc7618.pdf
http://www.atmel.com/Images/doc32131.pdf http://www.atmel.com/Images/doc8457.pdf
http://www.atmel.com/Images/doc7745.pdf
COPYRIGHT
Copyright (C) 2005-2013 Weston Schmidt
This program is free software; you can redistribute it and/or modify it under the terms of
the GNU General Public License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License along with this program;
if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
Boston, MA 02110-1301, USA