Slug: SunetInitialDevelopment
Title: Planning for SUNET funded Cryptech Work
Date: 2016-12-15 22:43
The following documents the first two development steps in Cryptech
funded by SUNET. The development is being done by Joachim Strömbergson
from Secworks AB.
- Acquire a FPGA development platform.
DONE. We have a Terasic DE0 board and a Terasic Cyclone V GX starter kit board.
-
Select FPGA development board to acquire
- Large enough to test sub systems and possibly a complete HSM.
- Good external interfaces for communication with host systems.
- Good external interfaces to entropy sources, memories,
GPIO. Arduino Shields would be good.
-
Create a survey on interconnect standards usable for Cryptech
- Availability and market share/usage in third party cores.
- License
- Technical details - Bus, fabric, performance etc.
-
Create base coretest functionality to allow testing of cores in the
FPGA on the development board. Read and write access to registers
over a known communication channel.
-
Verify the development flow from Verilog RTL downto FPGA.
-
Verifiera SHA-256 core using coretest.
-
Start FPGA tool survey
- What is available as open tools and what is the status.
- What is available as open tools from the vendors.
- Talk to people in the industry to get their views on an open toolchain.
-
Produce first draft of design proposal to the Cryptech True Random Number Generator (TRNG)
- Security target, security model and assumptions
- Structure, architecture
- API
- Functionality
- Online test system
- Verification model
- First two entropy sources
-
Complete SHA-1 core. Including functional verification in FPGA.
-
First draft of SHA-256 and SHA-1 core documentation.
-
Create template for documentation
-
Collect info on known TRNGs and TRNG strategies
-
Collect info on online tests being used.
-
Create proposal for architecture.
-
Write implementation proposal.
-
Specify API.
-
Write security target and security model.
-
Write assumptions and limitations.
-
Write verification model.
-
Finalize SHA-1 core RTl.
-
Build SHA-1 core in FPGA.
-
Verify SHA-1 functionality in FPGA using coretest.
-
Write documentation for SHA-256 core.
-
Write documentation for SHA-1 core.