Daniel Pouzzner a3fb5029f8 clean up trailing whitespace and misplaced CRLFs, add missing final newlines, remove stray UTF8 nonprintables (BOMs) and ASCIIfy stray homoglyphs (spaces and apostrophes), guided by expanded coverage in wolfssl-multi-test check-source-text. 2 luni în urmă
..
Makefile 12bf46296e Consolidate RISC-V examples. Fix `make dist` file error. 5 ani în urmă
README.md a3fb5029f8 clean up trailing whitespace and misplaced CRLFs, add missing final newlines, remove stray UTF8 nonprintables (BOMs) and ASCIIfy stray homoglyphs (spaces and apostrophes), guided by expanded coverage in wolfssl-multi-test check-source-text. 2 luni în urmă
include.am 12bf46296e Consolidate RISC-V examples. Fix `make dist` file error. 5 ani în urmă
main.c a3fb5029f8 clean up trailing whitespace and misplaced CRLFs, add missing final newlines, remove stray UTF8 nonprintables (BOMs) and ASCIIfy stray homoglyphs (spaces and apostrophes), guided by expanded coverage in wolfssl-multi-test check-source-text. 2 luni în urmă
user_settings.h b6a9c38950 Addressing PR comments 3 luni în urmă

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