RECENT BLOG NEWS

The wolfSSL embedded SSL/TLS library is highly portable, and easy to build on many different platforms. One of these platforms includes the Yocto Project, a project that assists developers with creating Linux-based systems on any architecture.

wolfSSL also includes many recipes and projects that make it easy to build on various platforms, and is maintained in the meta-wolfssl GitHub repository. This repository contains both Yocto and OpenEmbedded recipes for wolfSSL products (wolfSSL, wolfSSH, wolfMQTT, wolfTPM) and wolfSSL example applications. It also includes .bbappend files, which can be used to configure the cURL open-source project with support with the wolfSSL library.

More information about Yocto Linux and wolfSSL can be found in the meta-wolfssl readme, located in the GitHub repository here: https://github.com/wolfSSL/meta-wolfssl/blob/master/README.md

For more information on using wolfSSL, please contact info@wolfssl.com.

wolfSSL is a lightweight TLS/SSL library that is targeted for embedded devices and systems. It has support for the TLS 1.3 protocol, which is a secure protocol for transporting data between devices and across the Internet. In addition, wolfSSL uses the wolfCrypt encryption library to handle its data encryption.

Because there is a FIPS 140-2 validated version of wolfCrypt, this means that wolfSSL not only has support for the most current version of TLS, but it also has the encryption backbone to support your FIPS 140-2 needs if required.

Some key benefits of combining TLS 1.3 with FIPS validated software include:

1. Software becomes marketable to federal agencies - without FIPS, a federal agency is not able to use cryptographic-based software
2. Single round trip
3. 0-RTT (a mode that enable zero round trip time)
4. After Server Hello, all handshake messages are encrypted.

And much more! For more information regarding the benefits of using TLS 1.3 or using the FIPS validated version of wolfCrypt, check out wolfSSL's TLS 1.3 Protocol Support and our wolfCrypt FIPS page.

FIPS 140-2 is a government validation that certifies that an encryption module has successfully passed rigorous testing and meets high encryption standards as specified by NIST. For more information or details on FIPS 140-2, it may be helpful to view this Wikipedia article: https://en.wikipedia.org/wiki/FIPS_140-2

For more details about wolfSSL, TLS 1.3, or if you have any other general inquiries please contact info@wolfssl.com

To find out more about FIPS, check out the NIST FIPS publications or contact fips@wolfssl.com

Release 3.15.7 of wolfSSL Async has bug fixes and new features including:

Summary

• All wolfSSL v3.15.7 fixes and features.
• Fixes for additional static analysis warnings and async edge cases (https://github.com/wolfSSL/wolfssl/pull/2003).
• Added QAT v1.7 driver support including support for QAT 8970 hardware.
• Added QAT SHA-3 support.
• Added QAT RSA Key Generation support.
• Added support for new usdm memory driver.
• Added support for detecting QAT version and features.
• Added `QAT_ENABLE_RNG` option to disable QAT TRNG/DRBG.
• Added alternate hashing method to cache all updates (avoids using partial updates).

Here are the latest benchmarks with various build configurations:

CPU: ./configure --enable-keygen --enable-sha3
SP/AESNI: ./configure --enable-sp --enable-sp-asm --enable-aesni --enable-intelasm --enable-intelrand --enable-keygen --enable-sha3
QAT: ./configure --with-intelqa=../QAT1.7 --enable-asynccrypt --enable-keygen --enable-sha3
Nitrox V: ./configure --with-cavium-v=../CNN55XX-SDK --enable-asynccrypt

If you are interested in evaluating the wolfSSL Asynchronous support for Intel QuickAssist or Cavium Nitrox, please email us at info@wolfssl.com.

Are you looking for an SSL/TLS library which will seamlessly integrate into your bare metal or No-OS environment? If so, continue reading to learn why the wolfSSL lightweight SSL library is a perfect fit for such environments.

wolfSSL has been designed with portability and ease of use in mind, allowing developers to easily integrate it into a bare metal or operating systemless environment. As a large percentage of wolfSSL users are running the library on small, embedded devices, we have added several abstraction layers which make tying wolfSSL into these types of environments an easy task.

Available abstraction layers include:

• Custom Input/Output
• Standard C library / Memory
• File system (Able to use cert/key buffers instead)
• Threading
• Operating System

In addition to abstraction layers, we have tried to keep wolfSSL’s memory usage as low as possible. Build sizes for a complete SSL/TLS stack range from 20-100kB depending on build options, with RAM usage between 1-36kB per connection.

To learn more about how to integrate wolfSSL into your environment or get more information about reducing wolfSSL’s memory usage, please see the wolfSSL Manual or contact us directly.

The wolfSSL FAQ page can be useful for information or general questions that need need answers immediately. It covers some of the most common questions that the support team receives, along with the support team's responses. It's a great resource for questions about wolfSSL, embedded TLS, and for solutions to problems getting started with wolfSSL.

To view this page for yourself, please follow this link here.

Here is a sample list of 5 questions that the FAQ page covers:

1. How do I build wolfSSL on ... (*NIX, Windows, Embedded device) ?
2. How do I manage the build configuration of wolfSSL?
3. How much Flash/RAM does wolfSSL use?
4. How do I extract a public key from a X.509 certificate?
5. Is it possible to use no dynamic memory with wolfSSL and/or wolfCrypt?

Have a  question that isn't on the FAQ? Feel free to email us at support@wolfssl.com.

wolfSSH is a portable embedded SSH solution developed by wolfSSL. Recently we have made an exciting new feature enhancement to allow for client side support of pseudo terminal connections. This feature can be turned on by using the configure flag --enable-term and running the example client with “-t” ( i.e. ./examples/client/client -t -h <ip> -u <username> -p <port #> ). In addition to the added enhancement of using pseudo terminals, a function was added to support console code translations from Linux to Windows terminals. This allows usage of client side wolfSSH pseudo terminals on a Windows machine when connecting to a Linux server.

Another feature that was added is the ability for sending execution commands from the client to a server. An SSH connection to execute a command can be done by using the “-c” flag with the example SSH client. (i.e. ./examples/client/client -h <ip> -u <username> -p <port #> -c <command> ) There are many use cases for this, one being the case where an embedded system wants to startup a program on another device or server and pipe input / output through the secure wolfSSH connection.

These new features can be found at the wolfSSH github repository https://github.com/wolfSSL/wolfssh and in the next release version of wolfSSH on the wolfSSL website here https://www.wolfssl.com/download/.

For more information contact us at info@wolfssl.com.

Recently, wolfSSL released version 3.15.5 of the wolfSSL embedded SSL/TLS library. This new release features many feature additions and updates, one of which is the added support for using public key callbacks with TLS on an STSAFE-A100.

The STSAFE-A100 is a highly secure solution that acts as a secure element providing authentication and data management services to a local or remote host.  When paired with wolfSSL, this results in a robust and secure device that is able to effectively prevent external malicious attacks and provide high-strength, fast encryption.

For more information about the release or about wolfSSL, please contact info@wolfssl.com.

Resources:
STSAFE-A100: https://www.st.com/en/secure-mcus/stsafe-a100.html
wolfSSL version 3.15.5 release notes: https://www.wolfssl.com/wolfssl-3-15-5-now-available/

Recently, wolfSSL released version 3.15.5 of the wolfSSL embedded SSL/TLS library. This new release contains various updates and feature additions to the wolfSSL library, including the addition of Renesas RX e2 studio project files.

Renesas e2 studio is a development environment based on the Eclipse IDE. It covers various building tasks (editing, compiling, linking, etc.) and also provides a debug interface. It can use a wide range of compilers, including all Renesas compilers. This tool allows developers to more easily create and manage their project on their Renesas embedded controllers.

The addition of the wolfSSL studio project files for this tool is a great game changer, as it allows developers to use the portable, low-resource use wolfSSL library. wolfSSL uses the most secure and up-to-date encryption schemes that are offered by the wolfCrypt encryption engine, and also provides support for TLS 1.3! This way, Renesas embedded controllers can use high-end encryption with the latest version of the TLS protocol.

To find out more information, please contact info@wolfssl.com.

Resources:
Renesas: https://www.renesas.com/us/en/
wolfSSL v3.15.5 release notes: https://www.wolfssl.com/wolfssl-3-15-5-now-available/

Recently, wolfSSL released version 3.15.5 of the wolfSSL embedded SSL/TLS library. This new release features many new additions and updates, including the addition of a port for the STM32L4 MCU.

The STM32L4 is an ultra-low-power device with high flexibility, and as a member of the STM32 family, is easily integratable with the wolfSSL library. As wolfSSL is highly portable and the STM32L4 is highly flexible, if your device has any special features that interfere with the wolfSSL port, they are easily remedied.

The new wolfSSL STM32 port functionality was added into the existing STM32 port, and the STM32L4 functionality can be enabled by either defining the "WOLFSSL_STM32L4" option in the user_settings.h file, or by including the option CPPFLAGS="-DWOLFSSL_STM32L4" to the configure script if building the wolfSSL library with autotools.

Additionally, wolfSSL also provides support for the latest version of the TLS protocol, TLS 1.3! Find more information about TLS 1.3 here: https://www.wolfssl.com/docs/tls13/

For more information, please contact info@wolfssl.com.

Resources:

STM32L4: https://www.st.com/content/st_com/en/products/microcontrollers/stm32-32-bit-arm-cortex-mcus/stm32-ultra-low-power-mcus/stm32l4-series.html