MultiZone® Security TEE is the quick and safe way to add security and separation to any RISC-V processors. The 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 multi

Unlimited power for your apps

This project provides interfaces described in BSI-TR-03165 in form of JAVA API and OpenAPI YAML definition files. The TR describes a Trusted Service Management System (TSMS) to install and personalize JavaCard applets on secure components (eSE) in smartphones.

MultiZone® Security Enclave for Linux

wolfSSL PKCS#11

MultiZone® Security TEE for Arm® Cortex®-M is the quick and safe way to add security and separation to any Cortex-M based device. MultiZone® software can retrofit existing designs. If you don’t have TrustZone®, 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.

Secure Element support for Android and iOS in Rust with P256+ES256

The Sentry kernel is a high security level micro-kernel implementation made for high security embedded systems

Secure messaging without smartphones. Native SimpleX Protocol implementation in C for embedded systems. Features Hardware Abstraction Layer supporting multiple MCU platforms, hardware security modules, and three device tiers from maker-friendly to state-level protection.

Golang package collection of GlobalPlatform Card Specification related data and functions

ECLet version for ST-Micro's STM32 Series of boards

MultiZone® Security SDK for Ada

The SDK to connect to the RIDDLE&CODE Secure Element

MultiZone® Security TEE for Andes N22/AE250 is the quick and safe way to add security and separation to any RISC-V processors. The 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.

an experimental repository with official source code version 2.0.5 and CMake support

No description provided.

Open source Post-Quantum Cryptography Secure Element IP

Machine identity and its application

Go library for accessing rddl secure elements

The dsPIC33CK512MPT608 Provision Prototyping code example shows how to configure the Crypto Authentication Library to provision prototypes using the Trust Platform Design Suite (TPDS). TPDS uses Kit Protocol on device to provision the prototypes.

Modular FreeRTOS kernel and libraries, LwIP and MbedTLS to enable secure, connected IoT applications

Training Material for Microchip Security Solution

OpenSSL Provider for SealSQ VaultIC 408

C code used to compare different secure elements

KEC cihazı için Türkiye Elektronik Kimlik Doğrulama Sistemi (EKDS) firmware ve güvenli erişim uygulamaları.

No description provided.

Breakout board for Optiga Trust M chip compatible with Raspberry Pi

Open hardware designs for AVP-compatible secure elements

SealSQ Software Signing demo able you to verify a signed binary on a embedded device with an Hardware Root of Trust embeded in a VaultIC 292 coupled to our INeS PKI to manage the lifecyle of this binary

No description provided.