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README.md

SiFive RISC-V HiFive1 Port

Overview

You can enable the wolfSSL support for RISC-V using the #define WOLFSSL_SIFIVE_RISC_V.

Prerequisites

  1. Follow the instructions on the SiFive GitHub here and SiFive website here to download the freedom-e-sdk and software tools.
  2. Run a simple hello application on your development board to confirm that your board functions as expected and the communication between your computer and the board works.

Usage

You can start with a wolfcrypt example project to integrate the wolfSSL source code. wolfSSL supports a compile-time user configurable options in the IDE/RISCV/SIFIVE-HIFIVE1/user_settings.h file.

The IDE/RISCV/SIFIVE-HIFIVE1/main.c example application provides a function to run the selected examples at compile time through the following two #defines in user_settings.h. You can define these macro options to disable the test run.

- #undef NO_CRYPT_TEST
- #undef NO_CRYPT_BENCHMARK

Setup

Setting up the SDK with wolfSSL

  1. Download the wolfSSL source code or a zip file from GitHub and place it under your SDK $HOME directory. You can also copy or simlink to the source.

    For example,
    $ cd $HOME
    $ git clone --depth=1 https://github.com/wolfSSL/wolfssl.git
    
    
  2. Copy the wolfcrypt example project into your freedom-e-sdk/software directory.

    $ cp -rf ~/wolfssl/IDE/RISCV/SIFIVE-HIFIVE1 ~/freedom-e-sdk/software/wolfcrypt
    
  3. Edit your ~/freedom-e-sdk/scripts/standalone.mk and add the following line after the last RISCV_CFLAGS entry:

    RISCV_CFLAGS += -I$(WOLFSSL_SRC_DIR) -I$(WOLFSSL_SRC_DIR)/IDE/RISCV/SIFIVE-HIFIVE1 -DWOLFSSL_USER_SETTINGS
    
  4. WOLFSSL_SRC_DIR variable must be set in the environment when GNU make is started.

    $ export WOLFSSL_SRC_DIR=~/wolfssl
    
  5. Setup your riscv64 compiler

    $ export RISCV_OPENOCD_PATH=/opt/riscv-openocd
    
  6. (Optional) Setup OpenOCD if your target supports it:

    $ export RISCV_OPENOCD_PATH=/opt/riscv-openocd
    

Building and Running

You can build from source or create a static library.

  1. Using command-line:

    $ cd freedom-e-sdk
    $ make PROGRAM=wolfcrypt TARGET=sifive-hifive1-revb CONFIGURATION=debug clean software upload
    

This example cleans, builds and uploads the software on the sifive-hifive1-revb target but you can also combine and build for any of the supported targets.

Review the test results on the target console.

  1. Building a static library for RISC-V using a cross-compiler:

    $ cd $WOLFSSL_SRC_DIR
    
    $./configure --host=riscv64-unknown-elf  \
    CC=riscv64-unknown-elf-gcc \
    AR=riscv64-unknown-elf-ar \
    AS=riscv64-unknown-elf-as \
    RANLIB=$RISCV_PATH/bin/riscv64-unknown-elf-gcc-ranlib \
    LD=riscv64-unknown-elf-ld \
    CXX=riscv64-unknown-elf-g++ \
    --disable-examples --enable-static --disable-shared \
    CFLAGS="-march=rv32imac -mabi=ilp32 -mcmodel=medlow -ffunction-sections -fdata-sections -I~/freedom-e-sdk/bsp/sifive-hifive1/install/include -O0 -g -DNO_FILESYSTEM -DWOLFSSL_NO_SOCK -DNO_WRITEV -DWOLFCRYPT_ONLY -DWOLFSSL_SIFIVE_RISC_V"
    
    $make
    $sudo make install
    

You can now build and link your software to the wolfSSL libwolfssl.a static library.

wolfcrypt_test()

wolfcrypt_test() prints a message on the target console similar to the following output:

SiFive HiFive1 Demo
Setting clock to 320MHz
Actual Clock 320MHz

error    test passed!
MEMORY   test passed!
base64   test passed!
asn      test passed!
SHA      test passed!
SHA-256  test passed!
SHA-512  test passed!
Hash     test passed!
HMAC-SHA test passed!
HMAC-SHA256 test passed!
HMAC-SHA512 test passed!
GMAC     test passed!
Chacha   test passed!
POLY1305 test passed!
ChaCha20-Poly1305 AEAD test passed!
AES      test passed!
AES192   test passed!
AES256   test passed!
AES-GCM  test passed!
RANDOM   test passed!
ECC      test passed!
ECC buffer test passed!
CURVE25519 test passed!
ED25519  test passed!
logging  test passed!
mutex    test passed!
Test complete

benchmark_test()

benchmark_test() prints a message on the target console similar to the following output.

TARGET=sifive-hifive1-revb:

SiFive HiFive1 Demo
Setting clock to 320MHz
Actual Clock 320MHz

------------------------------------------------------------------------------
 wolfSSL version 4.0.0
------------------------------------------------------------------------------
wolfCrypt Benchmark (block bytes 1024, min 1.0 sec each)
RNG                250 KB took 1.098 seconds,  227.714 KB/s
AES-128-CBC-enc     50 KB took 1.132 seconds,   44.175 KB/s
AES-128-CBC-dec     50 KB took 1.142 seconds,   43.778 KB/s
AES-192-CBC-enc     50 KB took 1.250 seconds,   40.007 KB/s
AES-192-CBC-dec     50 KB took 1.260 seconds,   39.677 KB/s
AES-256-CBC-enc     50 KB took 1.368 seconds,   36.552 KB/s
AES-256-CBC-dec     50 KB took 1.378 seconds,   36.279 KB/s
AES-128-GCM-enc     25 KB took 1.225 seconds,   20.412 KB/s
AES-128-GCM-dec     25 KB took 1.225 seconds,   20.402 KB/s
AES-192-GCM-enc     25 KB took 1.290 seconds,   19.373 KB/s
AES-192-GCM-dec     25 KB took 1.291 seconds,   19.366 KB/s
AES-256-GCM-enc     25 KB took 1.352 seconds,   18.487 KB/s
AES-256-GCM-dec     25 KB took 1.353 seconds,   18.478 KB/s
CHACHA               1 MB took 1.006 seconds,    1.020 MB/s
CHA-POLY           700 KB took 1.032 seconds,  678.045 KB/s
POLY1305             2 MB took 1.007 seconds,    2.255 MB/s
SHA                  2 MB took 1.002 seconds,    1.511 MB/s
SHA-256            525 KB took 1.011 seconds,  519.279 KB/s
SHA-512            275 KB took 1.017 seconds,  270.477 KB/s
HMAC-SHA             1 MB took 1.013 seconds,    1.399 MB/s
HMAC-SHA256        525 KB took 1.019 seconds,  515.020 KB/s
HMAC-SHA512        275 KB took 1.032 seconds,  266.351 KB/s
ECC      256 key gen         2 ops took 1.104 sec, avg 551.834 ms, 1.812 ops/sec
ECDHE    256 agree           2 ops took 1.101 sec, avg 550.400 ms, 1.817 ops/sec
ECDSA    256 sign            2 ops took 1.173 sec, avg 586.502 ms, 1.705 ops/sec
ECDSA    256 verify          2 ops took 2.153 sec, avg 1076.294 ms, 0.929 ops/sec
CURVE  25519 key gen         2 ops took 1.629 sec, avg 814.423 ms, 1.228 ops/sec
CURVE  25519 agree           2 ops took 1.626 sec, avg 813.156 ms, 1.230 ops/sec
ED     25519 key gen         1 ops took 1.436 sec, avg 1436.096 ms, 0.696 ops/sec
ED     25519 sign            2 ops took 2.913 sec, avg 1456.421 ms, 0.687 ops/sec
ED     25519 verify          2 ops took 5.012 sec, avg 2506.012 ms, 0.399 ops/sec
Benchmark complete

Tested Configurations

  • P-RNG (NIST DRBG) with SHA-256
  • SHA 1/256/512
  • AES 128/192/256 CBC/GCM
  • ECC 256 sign/verify/shared secret with fast math or Single Precision (SP) library
  • ED25519/Curve25519
  • HMAC
  • ChaCha20/Poly1305

Known Caveats

  • If you find the wolfcrypt test stuck on early_trap_vector error, it is like related to memory issues
  • Using the __stack_size default value of 0x400 will not be enough for the ECC test to pass. The IDE/RISCV/SIFIVE-HIFIVE1/Makefile overwrites the value with 0x1000 (4 KBytes)
  • Enabling RSA will cause the ECC test to fail due to memory shortage.

References

The test results were collected from a SiFive reference platform target with the following hardware, software and tool chains:

  • HiFive1 Rev A/Rev B: HiFive1 Development Board with the Freedom Everywhere SoC, E300
  • freedom-e-sdk
  • wolfssl latest version

For more information or questions, please email support@wolfssl.com