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authorRob Austein <sra@hactrn.net>2020-09-13 23:04:30 +0000
committerRob Austein <sra@hactrn.net>2020-09-13 23:04:30 +0000
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+{{{
+#!htmlcomment
+
+This page is maintained automatically by a script. Don't modify this page by hand,
+your changes will just be overwritten the next time the script runs. Talk to your
+Friendly Neighborhood Repository Maintainer if you need to change something here.
+
+}}}
+
+{{{
+#!html
+<h1>STM32 avalanche noise entropy source</h1>
+
+<p>This is an open source and open hardware entropy source, using an
+STM32 microcontroller to gather entropy from a common avalanche
+noise circuit.</p>
+
+<p>A special thanks goes to Benedikt Stockebrand who designed the circuit
+and the currently used core extraction algorithm in his ARRGH project.</p>
+
+<p>http://www.stepladder-it.com/Downloads/arrgh-0.2.1alpha.txz</p>
+
+<h1>Copyrights</h1>
+
+<p>The license for all work done on this in the CrypTech project is a
+3-clause BSD license (see LICENSE.txt for details). Some files have
+been generated using the STMicroelectronics initialization code
+generator STM32CubeMX and thus have additional copyright header(s).</p>
+
+<p>The "Noise generator" and "Amplifier" parts of the circuit diagram are
+copied from the ARRGH project. ARRGH copyright statement is included
+in LICENSE.txt.</p>
+
+<p>A stripped down copy of the ARM CMSIS library version 3.20 is included
+in the Drivers/CMSIS/ directory. Unused parts (and documentation etc.)
+have been removed, but every attempt have been made to keep any
+licensing information intact. See in particular the file
+Drivers/CMSIS/CMSIS END USER LICENCE AGREEMENT.pdf.</p>
+
+<p>A full copy of the STM32F4xx HAL Drivers is included in the
+Drivers/STM32F4xx_HAL_Driver/ directory.</p>
+
+<h1>Building</h1>
+
+<p>The following packages need to be installed (on Ubuntu 14.04):</p>
+
+<p>apt-get install gcc-arm-none-eabi gdb-arm-none-eabi openocd</p>
+
+<p>XXX not sure this is the complete set, if you find that you need
+additional packages please let me know. See e-mail address at the bottom.</p>
+
+<p>To build the source code, issue "make" from the top level directory
+(where this file is). The first time, this will build the complete STM
+CMSIS library. A subsequent "make clean" will <em>not</em> clean away the CMSIS
+library, but a "make really-clean" will.</p>
+
+<h1>Installing</h1>
+
+<p>Do "make flash-target" from the top level directory (where this file is)
+to build the firmware for the application selected in the top level
+Makefile and flash it into the microcontroller. See the section STLINK
+below for information about the actual hardware programming device needed.</p>
+
+<h1>Using</h1>
+
+<p>The microcontroller code can currently run in one of two modes, set
+statically at the beginning of main(): MODE_DELTAS and MODE_ENTROPY.</p>
+
+<p>MODE_ENTROPY is the default, and means the microcontroller will send
+entropy as binary data as fast as it can get it, which is about 24 kB/s
+in the current version of hardware and software. To get some entropy
+and perform rudimentary analysis of it, and assuming USB is used and
+the device was enumerated as ttyUSB0, do</p>
+
+<p>ldattach -8 -n -1 -s 460800 tty /dev/ttyUSB0
+ echo &gt; /dev/ttyUSB0
+ cat /dev/ttyUSB0 | rngtest -c 10
+ cat /dev/ttyUSB0 | head -c 100000 | ent</p>
+
+<p>For Raspberry-Pi, follow any of the guides on the internet for how to
+enable the serial port on the GPIO pin header and then try</p>
+
+<p>ldattach -s 115200 -8 -n -1 tty /dev/ttyAMA0
+ echo &gt; /dev/ttyAMA0
+ cat /dev/ttyAMA0 | rngtest -c 10
+ cat /dev/ttyAMA0 | head -c 100000 | ent</p>
+
+<p>(the baud rate used with the R-Pi could probably be increased with a
+little hardware debugging effort).</p>
+
+<p>Which UART on the board that will receive the entropy is controlled
+by the sending of a newline to the UART ('echo &gt; /dev/ttyUSB0' and
+'echo &gt; /dev/ttyAMA0' in the examples above). The power on default is
+the USB UART.</p>
+
+<p>MODE_DELTAS is a quality assurance mode, and outputs the raw Timer IC
+values captured for analysis. The stand alone program in src/delta16/
+parses the data format used by MODE_DELTAS and can convert it to
+something you can analyse. More about how to do that later.</p>
+
+<h1>Contents</h1>
+
+<p>This documentation needs to be improved, but here are some quick notes:</p>
+
+<p>Hardware design (Eagle and PDF files) are in hardware/rev09/</p>
+
+<p>The firmware to extract entropy from this hardware is in src/entropy/</p>
+
+<p>There are additional firmwares to aid in debugging any hardware issues
+in src/led-test/ and src/uart-test/</p>
+
+<h1>Hardware</h1>
+
+<p>The avalanche noise circuit was first implemented using a NUCLEO-F401RE
+evaluation board that has an STM32F401RET6 MCU. Because of human error,
+the STM32F401RBT6 was used when assembling rev08 and rev09 boards. This
+chip has less flash and RAM, so some region mappings had to change.</p>
+
+<p>MCU dependant parameters are found in the top level common.mk near the
+top, read the comments regarding STDPERIPH_SETTINGS, MCU_LINKSCRIPT and
+SRCS.</p>
+
+<h1>STLINK</h1>
+
+<p>To program the MCU, an STLINK adapter is used. The cheapest way to get
+one is to buy an evaluation board with an STLINK integrated, and pinouts
+to program external chips. All the evaluation boards I've encountered
+from STM has this ability. I'm using an STLINK from an STM32F4DISCOVERY
+board, but the even cheaper NUCLEO-F401RE should work too. The NUCLEO
+one has a STLINK v2.1 which is probably, but not necessarily, supported
+by the OpenOCD version in your Linux distribution (as of end of 2014).</p>
+
+<p>The STLINK programming pins are the 1+4 throughole pads above the ARM
+on the circuit board. See the schematics for details, but the pinout
+from left to right (1, space, 4) of rev09 is</p>
+
+<p>NRST, space, CLK, IO, GND, VCC</p>
+
+<h1>Debugging the firmware</h1>
+
+<p>This site shows several ways to use various debuggers to debug the
+firmware in an STM32:</p>
+
+<p>http://fun-tech.se/stm32/OpenOCD/gdb.php</p>
+
+<p>I've only managed to get the most basic text line gdb to work,
+something along these lines:</p>
+
+<p>1) Start OpenOCD server (with a configuration file for your type of STLINK
+ adapter)</p>
+
+<p>$ openocd -f /usr/share/openocd/scripts/board/stm32f4discovery.cfg</p>
+
+<p>2) Connect to the OpenOCD server and re-flash already compiled firmware:</p>
+
+<p>$ telnet localhost 4444
+ reset halt
+ flash probe 0
+ stm32f2x mass_erase 0
+ flash write_bank 0 /path/to/main.bin 0
+ reset halt</p>
+
+<p>3) Start GDB and have it connect to the OpenOCD server:</p>
+
+<p>$ arm-none-eabi-gdb --eval-command="target remote localhost:3333" main.elf</p>
+
+<hr />
+
+<p>Fredrik Thulin <a href="mailto:fredrik@thulin.net">fredrik@thulin.net</a>, for the
+CrypTech project <a href="https://cryptech.is/">https://cryptech.is/</a>
+2015-01-14</p>
+}}}
+
+[[RepositoryIndex(format=table,glob=user/ln5/stm32-avalanche-noise)]]
+
+|| Clone `https://git.cryptech.is/user/ln5/stm32-avalanche-noise.git` ||