powersoftau-attestations/0007/report.asc

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Powers of Tau Operational writeup
=================================

Round: 7
Date: 2017-11-16
Name: Eric L. Stromberg
Location: San Francisco area, US

Challenge: 2ae068fbe1a9d0e070844047f3032432e86b822f593da3fcd6fc0ee8bed2f30caac587a1d5e68ea6fcdcf1a40213de7d41ded05cf9be934e4c6d617e201caa1a
Response: 1ad851c65b4fcf3ca0bce6b366c40c48b65f611044731faf2b5fc90f987eda3f3240ea25c555e516ff73de2855369fd2da77a7055529b6f72ac3225b07fd8585 

Preparation steps
=================

UBUNTU

Build VM & compute node OS from: ubuntu-16.04.3-desktop-amd64.iso
SHA256: 1384ac8f2c2a6479ba2a9cbe90a585618834560c477a699a4a7ebe7b5345ddc1  

Build VM, create compute binary:
Created new Ubuntu 16.04.3 VM from ISO
Followed instructions indicated in repository Readme to build “compute” binary
https://github.com/ebfull/powersoftau [commit 9e1553c437183540392a7231d0788318a19b18a3]
Formatted fresh 8GB USB stick, copied compute binary to it.
BLAKE2b-64 (./compute) = 7af5d31bbb215eab40753043523790483cdda67aef1d6e317f4269fb042dbc8608feaa0db8d17df82bef28f021509871635a56052de1370f4b90dc6322a8a962

Setup minimal compute node (ASUS 1015E laptop, 2GB RAM, Celeron 847, 320GB HDD):
Flash BIOS with latest (2013/05/23) from: http://dlcdnet.asus.com/pub/ASUS/nb/1015E/1015EAS304.zip
SHA256: 9ee3256bbc7116388a6c5079773d8ac28471f0cfbb2db8784e403c36c3bbd9bb  
Install ubuntu 16.04.3 from DVD: erase and reinstall, no network, no updates.
Copy compute binary and challenge file from USB stick.

MAC OSX

Build VM, create compute binary:
Used “Install macOS Sierra 10.12.app” from Apple.
Followed same steps as above to create “compute” binary.
BLAKE2b-64 (./compute) = 88565a9e84c9ee69818e78909b7f6b05ef46a88780b8378d44a037be7e8fd50c7c601e8340455be2ed9e703095baf88883f9104fded0086576c9c43c36fb6bf9

Installed MacOS on external SSD drive with “Install macOS High Sierra 10.13.0.app” from Apple.
To be used as boot image for MacBook Pro laptop, second compute node  (Internal disk is encrypted).
Copied compute binary and challenge to SSD drive.

Workspace preparation:

An interior closet containing a heavy gauge steal gun safe was lined with multiple layers of foil shielding to allow access to the compute node keyboard with the safe door open and still limit EM leakage.  Compute node, USB stick and 8 hexadecimal dice in a dice box placed in safe, with a power cord routed through the safe door opening: https://www.dropbox.com/s/ysfmhre0cjkhe1g/tinfoilsafe.jpeg?dl=0

Procedure
=========

For each of 3 compute runs, door to closet closed to effectively create a faraday room with safe containing the compute node (laptop) inside.  Safe door open to allow access to keyboard and screen.  Ran ./compute and when prompted, provided 64 bytes of entropy with 4 rolls of 8 hexadecimal dice in a box used to both randomize them and to order them unambiguously.  Once compute process was underway, closed and locked safe until completion of the compute process.

Sidechannel defenses
====================

The ASUS compute node is a 4 year old device, ordered by me through Amazon with 2-day shipping, with Ubuntu 12.04 factory installed; reimaged with w/16.04.3 for this exercise.  Was previously turned on once to set it up / verify and not otherwise used or connected to any network.  Node has been air gapped at all times since purchase.  The MAC compute node is a personal device and well used.  The Mac OS image created on an external drive for this exercise was never network connected and erased immediately afterwards.  The internal drive is encrypted and was not accessible to the boot image used.  All 3 production compute runs were performed in a rural area with no other structures or public roads within 100 yards in any direction.  The compute nodes were operated in a heavy gun safe within an interior closet shielded with foil to control EM leakage even when the safe door was open for keyboard access.  The safe was kept closed and locked during computation.  One of 3 results was randomly selected for submission without attribution.

Postprocessing
==============

ASUS: copied hash and response file to USB stick.  Battery removed from compute node.  Copied hash and response to personal laptop then securely erased USB and overwrote with random data.  I did not destroy the node, but it will remain unpowered and locked in a safe for at least one month and will either never be used again (and be destroyed) or will be used only as an offline signing device, securely stored and never connected to any network. MAC: after each of the 2 compute runs, copied hash onto SSD drive.  Powered off Mac.  Copied hash and response files to personal laptop then securely erased SSD (boot drive) and overwrote with random data.  Will continue to use SSD and Mac for other purposes.  A roll of hexadecimal dice was used to select 1 of the 3 response files.  50% probability given to result generated on the ASUS node and 25% probability given to each result from the MAC node.  The randomly selected result was verified and submitted - the hash of which is above.

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