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LWC Hardware API Development Package

This is a development package for GMU's Hardware API for Lightweight Cryptography. Please refer to the latest LWC Hardware API and LWC Hardware API Implementer's Guide for further details.

Note: if upgrading from an earlier version of the LWC package, please see our upgrade guide

This package is divided into two primary parts: Hardware and Software

Hardware

  • RTL VHDL code of a generic PreProcessor, PostProcessor, and Header FIFO, common for all LWC candidates (LWC_rtl)
  • Universal testbench common for all the API-compliant designs (LWC_tb)
  • Reference implementation of a dummy authenticated cipher with a hash functionality (AEAD+Hash) (dummy_lwc)
  • Template of the CryptoCore (CryptoCore_templete.vhd)
  • Template of design_pkg.vhd (design_pkg_templete.vhd)
  • process_failures.py: Python script for post-processing testbench-generated log of failed test-vectors ('failed_test_vectors.txt')
  • makefiles, scripts, lwc.mk: simulation makefiles and scripts.

The subfolders of dummy_lwc include:

  • src_rtl: RTL VHDL code of the dummy core
  • KAT: Known-Answer Tests. The subfolders include test-vectors for 3 variants of the dummy core with different configurations of the external bus width (W).
    • KAT_v{1,2,3}: Known-Answer Tests for three variants of dummy_lwc with the external bus width W=32. The test-vectors are the same for three variants (v1,v2,v3 corresponding to CCW={32,16,8}) of the core and presented as symlinks to the v1 subfolder.
    • KAT/v2_W16: Known-Answer Tests for W=16 and CCW=16.
    • KAT/v3_W8: Known-Answer Tests for W=8 and CCW=8.
    • KAT_MS_W{32,16,8}: Known-Answer Tests with multiple segments for plaintext, ciphertext, associated data, and hash message, with the external bus width W={32,16,8}.
  • scripts: Sample Vivado and ModelSim simulation scripts.

LWC Package Configuration Options

design_pkg.vhd constants

Definition and initialization of these constants MUST be present in the user-provided design_pkg.vhd file. Please refer to dummy_lwc design_pkg for an example.

  • CCW: Specifies the bus width (in bits) of CryptoCore's PDI data and can be 8, 16, or 32.
  • CCSW: Specifies the bus width (in bits) of CryptoCore's SDI data and is expected to be equal to CCW.
  • TAG_SIZE: specifies the tag size in bits.
  • HASH_VALUE_SIZE: specifies the hash size in bits. Only used in hash mode.

NIST_LWAPI_pkg.vhd configurable constants

  • W (integer default=32): Controls the width of the external bus for PDI data bits. The width of sdi_data (SW) is set to this value. Valid values are 8, 16, 32. Supported combinations of (W, CCW) are (32, 32), (32, 16), (32, 8), (16, 16), and (8, 8).
  • ASYNC_RSTN (boolean default=false): When True an asynchronous active-low reset is used instead of a synchronous active-high reset throughout the LWC package and the testbench. ASYNC_RSTN can be set to true only if the CryptoCore provides support for using active-low asyncronous resets for all of its resettable registers. Please see the provided dummy_core as an example.

Testbench Parameters

Testbench parameters are exposed as VHDL generics in the LWC_TB testbench top-level entity. Some notable generics include:

  • G_MAX_FAILURES(integer): number of maximum failures before stopping the simulation (default: 100)
  • G_TEST_MODE(integer): see "Test Mode"below. (default: 0)
  • G_CLK_PERIOD_PS(integer): simulation clock period (default: 10 ns)
  • G_FNAME_PDI, G_FNAME_SDI, G_FNAME_DO(string): Paths to testvector input and expected output files.
  • G_FNAME_LOG(string): Path to the testbench-generated log file.
  • G_FNAME_FAILED_TVS(string): Path to testbench-generated file containing all failed test-vectors. It will be an empty file if all test vectors passed. (default: "failed_test_vectors.txt")

Please see LWC_TB.vhd for the full list of testbench generics.

Note: Commercial and open-source simulators provide mechanisms for overriding the value of top-level testbench generics without the need to manually change the VHDL file.

Measurement Mode

  • The LWC_TB now includes a timing measurement mode which measures the number of cycles spent on the execution of each individual test-case. To activate this mode, set G_TEST_MODE to 4. The results of the timing measurement are written to the file specified by the G_FNAME_TIMING testbench generic.

Software

The software subdirectory contains:

  • cryptotvgen: Python utility and library for the cryptographic hardware test-vector generation. cryptotvgen can prepare and build software implementations of LWC candidates from user-provided C reference code or a SUPERCOP release and generate testvectors for various testing scenarios. The reference software implementation needs to be organized according to SUPERCOP package structure with the C reference code residing inside the ref subfolder of crypto_aead and crypto_hash directories. Please see cryptotvgen's documentation for updated installation and usage instructions.

  • dummy_lwc_ref: dummy_lwc AEAD and hash C reference implementation. Folder follows SUPERCOP package structure.