multizone-sdk-andes

MultiZone® Security TEE for Andes RISC-V processors

MultiZone® Security is the quick and safe way to add security and separation to RISC-V processors. MultiZone software can retrofit existing designs. If you don’t have TrustZone-like hardware, or if you require finer granularity than one secure world, you can take advantage of high security separation without the need for hardware and software redesign, eliminating the complexity associated with managing a hybrid hardware/software security scheme. RISC-V standard ISA doesn't define TrustZone-like primitives to provide hardware separation. To shield critical functionality from untrusted third-party components, MultiZone provides hardware-enforced, software-defined separation of multiple equally secure worlds. Unlike antiquated hypervisor-like solutions, MultiZone is self-contained, presents an extremely small attack surface, and it is policy driven, meaning that no coding is required – and in fact even allowed.

MultiZone works with any 32-bit or 64-bit RISC-V processors with standard Physical Memory Protection unit (PMP) and “U” mode.

This release of the MultiZone SDK supports the following development boards:

• Digilent Arty A7 Development Board (Xilinx Artix-7 FPGA)
• Andes Corvette-F1 R1.0 (Xilinx Artix-7 FPGA)
• Microchip Icicle Kit (PolarFire SoC)
• SiFive HiFive1 Rev B (Freedom E310 SoC)
• SiFive Unleashed (Freedom U540 SoC)

This repository is for the Andes Corvette-F1 R1 (N22/AE250).

MultiZone SDK Installation

The MultiZone SDK works with any versions of Linux, Windows, and Mac capable of running Java 1.8 or greater. The directions in this readme have been verified with fresh installations of Ubuntu 20.04, Ubuntu 19.10, Ubuntu 18.04.5, and Debian 10.5. Other Linux distros are similar. Windows developers may want to install a Linux emulation environment like Cygwin or run the SDK in a Linux VM guest (2GB Disk, 2GB Ram)

Linux prerequisites

sudo apt update
sudo apt install make default-jre gtkterm libhidapi-dev libftdi1-2

Ubuntu 18.04 LTS additional dependency

sudo add-apt-repository "deb http://archive.ubuntu.com/ubuntu/ focal main universe"
sudo apt update
sudo apt install libncurses-dev

Note: GtkTerm is optional and required only to connect to the reference application via UART. It is not required to build, debug, and load the MultiZone software. Any other serial terminal application of choice would do.

GNU RISC-V Toolchain

Hex Five reference build: RISC-V GNU Toolchain Linux 64-bit June 18, 2021

cd ~
wget https://hex-five.com/wp-content/uploads/riscv-gnu-toolchain-20210618.tar.xz
tar -xvf riscv-gnu-toolchain-20210618.tar.xz

OpenOCD on-chip debugger

Hex Five reference build: RISC-V OpenOCD Linux 64-bit August 07, 2021

cd ~
wget https://hex-five.com/wp-content/uploads/riscv-openocd-20210807.tar.gz
tar -xvf riscv-openocd-20210807.tar.gz

Note: the SiFive HiFive1 board doesn't support OpenOCD and requires the Segger propietary package JLink_Linux_V694_x86_64.deb downloadable at https://www.segger.com/downloads/jlink/.

Linux USB udev rules

sudo vi /etc/udev/rules.d/99-openocd.rules# ANDES TECHNOLOGY CORPORATION - Corvette F1 [CON1]
SUBSYSTEM=="tty", ATTRS{idVendor}=="1cfc",ATTRS{idProduct}=="0000", MODE="664", GROUP="plugdev"
SUBSYSTEM=="usb", ATTR{idVendor} =="1cfc",ATTR{idProduct} =="0000", MODE="664", GROUP="plugdev"

A reboot may be necessary for these changes to take effect.

MultiZone Security SDK

cd ~
git clone https://github.com/hex-five/multizone-sdk.git

Build & load the MultiZone reference application

Connect the target board to the development workstation as indicated in the user manual.

'ls multizone-sdk/bsp' shows the list of supported targets: N22-ILM N22-FLASH.

Assign one of these values to the BOARD variable - default target is N22-ILM.

cd ~/multizone-sdk
export RISCV=~/riscv-gnu-toolchain-20210618
export OPENOCD=~/riscv-openocd-20210807
export BOARD=N22-ILM
make 
make load

Note: the N22-FLASH target requires Andes flash programmer software.

Run the MultiZone reference application

Connect the CON2 UART port as indicated in the Corvette-F1 user manual.

On your computer, start a serial terminal console (GtkTerm) and connect to /dev/ttyUSB1 at 115200-8-N-1

Hit the enter key a few times until the cursor 'Z1 >' appears on the screen

Enter 'restart' to display the splash screen

Hit enter again to show the list of available commands

=====================================================================
                       Hex Five MultiZone® Security                    
    Copyright© 2020 Hex Five Security, Inc. - All Rights Reserved    
=====================================================================
This version of MultiZone® Security is meant for evaluation purposes 
only. As such, use of this software is governed by the Evaluation    
License. There may be other functional limitations as described in   
the evaluation SDK documentation. The commercial version of the      
software does not have these restrictions.                           
=====================================================================
Machine ISA   : 0x40901105 RV32 ACIMUX 
Vendor        : 0x0000031e Andes Technology 
Architecture  : 0x80000022 N22 
Implementation: 0x00000130 
Hart id       : 0x0 
CPU clock     : 20 MHz 
RTC clock     : 20 MHz 
 
CLIC @0xe2000000 
DMAC @0xe0e00000 
UART @0xf0300000 
GPIO @0xf0700000 

Z1 > Commands: yield send recv pmp load store exec stats timer restart dma

Optional: Eclipse CDT Project

This repository includes an optional Eclipse CDT project for developers familiar with this IDE. No additional plugins are required to build and upload MultiZone to the target. The OpenOCD debugging plug-in is optional and recommended.

Eclipse project Setup

File > Open Projects from File System > Import source: ~/multizone-sdk

Project > Properties > C/C++ Build > Environment: set RISCV and OPENOCD variables according to your installation

Optional: FreeRTOS Example

No additional software dependencies are required to run MultiZone-based applications. To ease the integration of the MultiZone TEE with legacy applications based on the popular FreeRTOS operating system, the MultiZone SDK includes an optional zone3.1 running FreeRTOS 10.4.0. Its functionality is identical to the one of the original zone3 that controls the robot, but it is implemented as a typical FreeRTOS applications with four tasks and one interrupt handler.

Installation

cd ~/multizone-sdk
git submodule update --init --recursive
git apply -p1 ext/freertos.patch --directory=ext/freertos

Setup

Edit multizone-sdk/Makefile and change the two references to "zone3" into "zone3.1" :

...

.PHONY: all 
all: clean
    $(MAKE) -C zone1
    $(MAKE) -C zone2
    $(MAKE) -C zone3
    $(MAKE) -C zone3.1
    $(MAKE) -C zone4
    $(MAKE) -C bsp/$(BOARD)/boot

    java -jar multizone.jar \
        --arch $(BOARD) \
        --config bsp/$(BOARD)/multizone.cfg \
        --boot bsp/$(BOARD)/boot/boot.hex \
        zone1/zone1.hex \
        zone2/zone2.hex \
        zone3.1/zone3.hex \
        zone4/zone4.hex

...    

Build and load to flash with the commands “make” and “make load”.

Note: to activate MultiZone deep-sleep suspend, set configUSE_TICKLESS_IDLE 1 and configUSE_IDLE_HOOK 0 in ext/FreeRTOSConfig.h. This enables Hex Five’s optimized implementation of the FreeRTOS vPortSuppressTicksAndSleep() that takes full advantage of the RISC-V instruction wfi.

MultiZone TEE Technical Specs

Up to 4 hardware threads (zones) hardware-enforced, software-defined
Up to 8 memory mapped resources per zone – i.e. flash, ram, rom, i/o, etc.
Scheduler: preemptive, cooperative, round robin, configurable tick or tickless
Secure interzone communications based on messages – no shared memory
Built-in support for secure shared Timer interrupt
Built-in support for secure shared PLIC interrupt
Built-in support for secure DMA transfers
Built-in support for CLIC, CLINT, and PLIC interrupt controllers
Built-in trap & emulation for all privileged instructions – csrr, csrw, ecall, etc.
Support for secure user-mode interrupt handlers mapped to zones – up to 32/64 sources
Support for CPU deep-sleep suspend mode for low power applications - wfi
Formally verifiable runtime ~4KB, 100% written in assembly, no 3rd-party dependencies
C macro wrappers for protected mode execution – optional for high speed low-latency
Hardware requirements: RV32, RV32e, RV64 cpu with Memory Protection Unit and 'U' mode
System requirements: 8KB FLASH, 4KB ITIM, 2KB DTIM - CPU overhead < 0.01%
Development environment: any versions of Linux, Windows, Mac running Java 1.8 or newer

Additional Resources

• MultiZone Reference Manual
• MultiZone Datasheet
• MultiZone Website
• Frequently Asked Questions
• Contact Hex Five http://hex-five.com/contact

Legalities

Please remember that export/import and/or use of strong cryptography software, providing cryptography hooks, or even just communicating technical details about cryptography software is illegal in some parts of the world. So when you import this software to your country, re-distribute it from there or even just email technical suggestions or even source patches to the authors or other people you are strongly advised to pay close attention to any laws or regulations which apply to you. Hex Five Security, Inc. and the authors of the software included in this repository are not liable for any violations you make here. So be careful, it is your responsibility.

MultiZone and HEX-Five are registered trademarks of Hex Five Security, Inc.

MultiZone technology is protected by patents US 11,151,262 and PCT/US2019/038774