Installing ChipWhisperer

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Using VMWare Virtual Machine

Windows XP/7

Assuming you want to install the full ChipWhisperer software, you can follow the following steps to do so. Note it is recommended to use the VMWare image if possible, since it includes all required tools out of the box!

Python Setup

You may already have Python installed, in which case you can skip some of these steps. If you already have Python installed make sure it is the correct version (2.7.x). Python 3.x will not work with this codebase.

Installing Python via WinPython

The recommend method of installing Python is to use a distribution called WinPython. This setup avoids installing Python globally, and includes most of the software you will need. In addition it makes it possible to install 32-bit and 64-bit Python on the same system with minimal problems. This can be very useful as the 64-bit version is handy for doing analysis on large data sets.

  1. Install WinPython 2.7.x. Download the latest release in the 2.7.x branch from the WinPython site. It's recommended to use the 32-bit version, but you can also use the 64-bit version. Note that certain drivers (such as the SmartCard driver) do not work on the 64-bit version. Choose a reasonable location to install this to - note the default is simply in the download directory. Instead it's recommended to find a directory such as c:\WinPython32bit-2.7.6.4, or into your local directory such as c:\Users\yourname\WinPython-32bit-2.7.6.4.
  2. Go to your installation directory for WinPython, and run the shortcut called WinPython Command Prompt.exe. This will give you a command prompt which is setup to run Python along with associated scripts.
  3. Run the following commands to get needed packages:

    pip install pyqtgraph
    pip install configobj

    Assuming you are planning on using the ChipWhisperer Capture Rev2 hardware, you also require PyUSB. The easiest method is to again use pip:

    pip install pyusb

    If that command fails, you may need to specify a version. Note the latest version printed by the command, and try:

    pip install pyusb==1.0.0b1
  4. Optional: You can add the python.exe you just installed to your path. To do so navigate to your installation folder, and run the WinPython Control Panel.exe program. Then select Advanced -> Register distribution.... If you do not do this, you will have to run all commands in this document via the WinPython Command Prompt.exe.

    If you plan on running both 32-bit and 64-bit Python, you should not register them. Instead explicitly call the correct Python by always running the WinPython Command Prompt.exe, and then calling specific programs (such as CW Capture or Analyzer) from that command prompt.

  5. Jump to #Getting_.26_Installing_ChipWhisperer to install ChipWhisperer software.


Optional Packages

Note there are some optional packages you may want. Generally you can avoid them unless you have specific need of the features they enable:

FTD2XX: ftd2xx is required for SASEBO-W, SAKURA-G, and SASEBO-GII Support. To install this package, download a copy of the ftd2xx repository and unzip it somewhere. Then run the following where you unzipped it:

python setup.py install

This package will also require you to install the FTDI D2XX Drivers. In the preceeding link simply find the correct driver for your OS Version & install that.

MYSQL: If you want to use the MySQL trace format (not used by default), you'll need to install umysql:

pip install umysql

PYSCARD: If planning on using a PS/SC smartcard reader (i.e. standard USB-connected reader), you will need to install pyscard.


Getting & Installing ChipWhisperer

Assuming you've got a working Python installation, the next step is to install & run ChipWhisperer itself. This requires you to get a copy of ChipWhisperer, you should download the Latest Release. Download & unzip the file somewhere. Note if you are adventurous you can clone the GIT Repository git://git.assembla.com/chipwhisperer.git instead, but this may be broken so you should start with the latest release instead.

Generally 'somewhere' will become your ChipWhisperer working directory. These examples assume you've chosen C:\chipwhisperer as your working directory.

Once you've got the file, we run the Python install procedure again (setup.py). We slightly modify it to use the develop command to reflect that the files will probably be changing frequently. Again open a terminal and run the following, adjusting paths as needed:

cd c:\chipwhisperer\openadc\controlsw\python
python setup.py develop
cd c:\chipwhisperer\software
python setup.py develop

If you wish to confirm the installation worked, you can run ChipWhispererAnalyzer in the same terminal:

cd c:\chipwhisperer\software\chipwhisperer\analyzer
python ChipWhispererAnalyzer.py

Alternatively you can just double-click on ChipWhispererAnalyzer.py from Windows explorer, which should run the file using Python, provided you've registered Python to execute the .py extension.

You can see a Video of the Installation Procedure:

YouTubeWin7Install_


Installing Hardware Drivers

Details of driver installation are on specific pages for supported hardware (such as hwcapturerev2 and naecw1173_cwlite). Drivers are available from ChipWhisperer release section.

Getting AVR Compiler Toolchain

The following section is NOT REQUIRED for your first attack - you can jump right to the tutorial if you wish. However you'll ultimately wish to modify the code of the device under test, and these instructions tell you how. You should first follow the tutorial to confirm your system is working before modifying the code however!

To build the code, you'll need to install WinAVR on Windows (if using the Virtual Machine, the following is not required, as the VM comes setup with the AVR compiler already).

Note that the default codebase does not include the cryptographic code we attack. Instead you are required to add this code into the system -- if the external code changes, this may eventually be instead rolled into the main codebase. To setup the code, follow the following steps:

  1. cd to the directory with the avr-serial example, and run make:

    cd c:\chipwhisperer\hardware\victims\firmware\simpleserial-aes
    make

    If this is successful, you'll see an output like the following:

    image

    If instead you get an error something like make: *** No rule to make target `simpleserial.elf', needed by `elf'. Stop., this means a required file was missing.

  2. Programming the target AVR is accomplished in one of two methods depending on your hardware. The ChipWhisperer Capture Rev 2 uses the external "AVR Studio" program, whereas the CW1173 and CW1200 use a programmer menu from the ChipWhisperer-Capture software. To see details refer to either CW1002_ChipWhisperer_Capture-Rev2#CWCR2:_Using_the_AVR_Programmer or CW1173_ChipWhisperer-Lite#CW-Lite:_Programming_AVR.2FXMEGA_Device.

Linux

Python Setup

On Linux, installing Python & all the associated packages is much easier than on Windows. Typically you can install them from a package manager, if you are using Fedora Core or similar, just type:

$ sudo yum install python27 python27-devel python27-libs python-pyside numpy scipy python-configobj pyusb

On Ubuntu or similar:

$ sudo apt-get install python2.7 python2.7-dev python2.7-libs python-numpy python-scipy python-pyside python-configobj python-setuptools python-pip $ sudo pip install pyusb-1.0.0b1

You also need to install PyQtGraph which is not normally in those repositories. See the PyQtGraph website for either a Debian/Ubuntu package, or information about installing from source.

Getting ChipWhisperer

As in the Windows release, you can download a complete ChipWhisperer software release. Alternatively you can clone the ChipWhisperer repository with git, which is very simple on Linux:

$ git clone git://git.assembla.com/chipwhisperer.git
$ cd chipwhisperer
$ git clone git://git.assembla.com/openadc.git

Be aware that the git code may be broken, although we try not to commit completely untested code to the master branch. Either way once you have the chipwhisperer directory somewhere, do the following from within that directory:


$ cd software
$ sudo python setup.py develop
$ cd ../openadc/controlsw/python
$ sudo python setup.py develop


NB: This assumes the python command links to Python-2.7, and not Python-3.x. You may need to specify either python2.7 or python27 as the command instead of python to force this.

ChipWhisperer Rev2 Capture Hardware Driver

The driver for Linux is built in, however you need to allow your user account to access the peripheral. To do so, you'll have to make a file called /etc/udev/rules.d/99-ztex.rules . The contents of this file should be:

# allow users to claim the device
SUBSYSTEM=="usb", ATTRS{idVendor}=="04b4", ATTRS{idProduct}=="8613", MODE="0664", GROUP="plugdev"
SUBSYSTEM=="usb", ATTRS{idVendor}=="221a", ATTRS{idProduct}=="0100", MODE="0664", GROUP="plugdev"

Then add your username to the plugdev group:


$ sudo usermod -a -G plugdev YOUR-USERNAME

And reset the udev system:

$ sudo udevadm control --reload-rules

Finally log out & in again for the group change to take effect.

AVR-USB Programmer

To use the AVR Programmer from Linux, you again need to pass control of the device to a special group. Create a file called /etc/udev/rules.d/99-avrisp.rules . The contents of this file should be:

# allow users to claim the device
SUBSYSTEM=="usb", ATTRS{idVendor}=="03eb", ATTRS{idProduct}=="2104", MODE="0664", GROUP="plugdev"

You'll have to add yourself to the plugdev group if you haven't already:

$ sudo usermod -a -G plugdev YOUR-USERNAME

And reset the udev system:

$ sudo udevadm control --reload-rules

Finally log out & in again for the group change to take effect.


FTDI Hardware Driver (SASEBO-W, SAKURA-G, SASEBO-GII)

This is only required for supporting FTDI-connected hardware such as the SASEBO-W, SAKURA-G, SASEBO-GII. This is NOT required for the ChipWhisperer Capture Rev2.

First, you need to install the D2XX drivers & python module. See the section #Optional_Packages.

Currently, there is a bit of a hack needed. You have to create (or modify if it exists) the file /etc/udev/rules.d/99-libftdi.rules . The following modifications will cause any FTDI-serial device to stop working, so backup the existing file! The contents of this file should be:

SUBSYSTEM=="usb", ATTRS{idVendor}=="0403", ATTRS{idProduct}=="6010", MODE="0664", GROUP="plugdev"
ATTRS{idVendor}=="0403", ATTRS{idProduct}=="6010", RUN+="/bin/sh -c 'echo $kernel > /sys/bus/usb/drivers/ftdi_sio/unbind'"

Then add your username to the plugdev group (if not already done):

$ sudo usermod -a -G plugdev YOUR-USERNAME

And reset the udev system:

$ sudo udevadm control --reload-rules

Finally log out & in again for the group change to take effect.


MAC OS X

The following have been tested on Mac OS X Yosemite (10.10) - earlier versions may not have a recent enough Python installation (recommended 2.7.6 or later). It's possible to install other Python versions on your Mac OS X via the 'homebrew' system, we will use this for installing a few additional required tools.

Python Setup

  1. Ensure your user account has a password. In order for the 'sudo' command to work it requires you to type your password, so if you don't have one enabled be sure to set a temporary password now.
  2. Install the 'homebrew' system, see brew.sh for details. Briefly, you can install it by pasting the following in a terminal:

    $ ruby -e "$(curl -fsSL https://raw.githubusercontent.com/Homebrew/install/master/install)"
  3. Install PySide using homebrew:

    $ brew install pyside

    The install will probably print a message like this:

    image

    Note you must run that command in order to successfully import the modules, in this example it would be:

    $ mkdir -p /Users/macmini/Library/Python/2.7/lib/python/site-packages
    $ echo 'import site; site.addsitedir("/usr/local/lib/python2.7/site-packages")' >> /Users/macmini/Library/Python/2.7/lib/python/site-packages/homebrew.pth