So, what’s new at wolfSSL? Take a look below to check out the most recent news.
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In addition, wolfSSL now has a support-specific blog page dedicated to answering some of the more commonly received support questions.

wolfSSL 3.15.3 Now Available

wolfSSL is proud to announce release version 3.15.3 of the wolfSSL embedded TLS library.  This release contains bug fixes and new features, which include:

  • ECDSA blinding added for hardening against side channel attacks
  • Fix for OpenSSL compatibility layer build with no server (NO_WOLFSSL_SERVER) and no client (NO_WOLFSSL_CLIENT) defined
  • Intel assembly instructions support for compatible AMD processors
  • wolfCrypt port for Mentor Graphics Nucleus RTOS
  • Fix added for MatchDomainName() with additional tests added
  • Fixes for building with ‘WOLFSSL_ATECC508A’ defined
  • Fix for verifying a PKCS7 files in BER format with indefinite size

This release of wolfSSL fixes 2 security vulnerability fixes:

Medium level fix for PRIME + PROBE attack combined with a variant of Lucky 13.  Constant time hardening was done to avoid potential cache-based side channel attacks when verifying the MAC on a TLS packet. CBC cipher suites are susceptible on systems where an attacker could gain access and run a parallel program for inspecting caching. Only wolfSSL users that are using TLS/DTLS CBC cipher suites need to update. Users that have only AEAD and stream cipher suites set, or have built with WOLFSSL_MAX_STRENGTH (--enable-maxstrength), are not vulnerable. Thanks to Eyal Ronen, Kenny Paterson, and Adi Shamir for the report.

Medium level fix for a ECDSA side channel attack. wolfSSL is one of over a dozen vendors mentioned in the recent Technical Advisory “ROHNP” by author Ryan Keegan. Only wolfSSL users with long term ECDSA private keys using our fastmath or normal math libraries on systems where attackers can get access to the machine using the ECDSA key need to update. An attacker gaining access to the system could mount a memory cache side channel attack that could recover the key within a few thousand signatures. wolfSSL users that are not using ECDSA private keys, that are using the single precision math library, or that are using ECDSA offloading do not need to update. (blog with more information:

For more information, please contact You can see the full change log in the source archive from our website at or at our GitHub repository.

Renesas e2studio Support

Are you a user of Renesas e² studio?  If so, you will be happy to know that wolfSSL recently added support and example project files to the wolfSSL embedded SSL/TLS library for e² studio!

Renesas e² studio is a development environment based on the popular Eclipse CDT (C/C++ Development Tooling), covers build (editor, compiler and linker control), as well as debug interface.

e² studio project files for building the wolfSSL library, as well as a project file to build and run the wolfCrypt test app have been included in the wolfSSL package, specifically in the “IDE/Renesas/e2studio” directory.  When working with Renesas e² studio, wolfSSL worked with e² studio version 6.3.0 and the Renesas C compiler.

For instructions on how to build the projects, please see the README, located at “IDE/Renesas/e2studio/README”.  This support is currently located in our GitHub master branch, and will roll into the next stable release of wolfSSL as well.  For any questions or help getting wolfSSL up and running on your Renesas environment, please contact us at

Live webinar – Testing and Security Vulnerability

Please join wolfSSL Engineer, Kaleb Himes, for the live webinar, "Testing and Security Vulnerability". We'll explore vulnerabilities, why testing is a mission, the testing life cycle and why wolfSSL is the best! This webinar may be a useful resource for learning more about how wolfSSL is tested and how security vulnerabilities are determined.

Please register for one of the following times:

When: Oct 24, 2018 10:00AM Singapore, 11:00AM Japan
Register in advance for this webinar:

When: Oct 25, 2018 3:00 PM Central European Time
Register in advance for this webinar:

When: Oct 25, 2018 10:00 AM Pacific Time (US and Canada)
Register in advance for this webinar:

After registering, you will receive a confirmation email containing information about joining the webinar.

We look forward to seeing you there!

For more information, please feel free to contact or view our FAQ page. Additionally, information about previous wolfSSL webinars is available here:

wolfSSL at Sensors Midwest

wolfSSL will be attending Sensors Midwest 2018 next week in Rosemont, IL. Stop by to talk with engineering manager Chris Conlon and sales & marketing director Christin Casperson.

Sensors Midwest will be held on October 16th and 17th, at the Donald E. Stephens Convention Center, and wolfSSL will be attending on both of these days.

Additionally, Chris Conlon will be giving a speech titled "An Overview of TLS 1.3" on Tuesday, October 16th, from 10:10am to 11:00am.

Stop by booth #212 to have questions about wolfSSL/licensing answered in person, to learn more about the benefits of a TLS 1.3 implementation written in C combined with FIPS, to hear Chris's speech, or to pick up some nifty stickers. We look forward to seeing you there!

wolfSSL at ARM TechCon

wolfSSL will be attending at ARM TechCon 2018 next week, in San Jose, CA. Stop by to talk with business director Rich Kelm, software engineer Tesfa Mael, and intern Rylie DeGarmo.

ARM TechCon 2018 will be held from October 16th to October 18th, at the San Jose Convention Center (directions), and wolfSSL will be attending on October 17th and 18th.

Stop by booth #1026 to have questions about wolfSSL/licensing answered in person, to learn more about the benefits of an all C TLS 1.3 implementation with FIPS, or to pick up some nifty stickers. We look forward to seeing you there!

TLS 1.3 combined with FIPS (#FIPS #TLS13)

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:

For more details about wolfSSL, TLS 1.3, or if you have any other general inquiries please contact

To find out more about FIPS, check out the NIST FIPS publications or contact

Lighttpd support for wolfSSL

Lighttpd master now supports wolfSSL with autoconf, meson, CMake, and SCons.

Build wolfSSL using:

./configure --enable-lighty
sudo make install

Build Lighttpd using:

./configure --with-wolfssl=yes



This work was submitted via:

Current documentation can be found here:

For more questions please email us at

Securing MySQL (#mysql) with wolfSSL SSL/TLS

MySQL logo             wolfSSL logo

MySQL (#mysql) currently comes bundled with yaSSL to provide an option for SSL/TLS connections when using a database. A patch for securing MySQL with the wolfSSL embedded SSL/TLS library is available for MySQL version 8.0.0 here

Along with an increased level of security comes the potential to use progressive features offered by wolfSSL – such as TLS 1.3 and ChaCha20 / Poly1305 AEAD cipher suites (ex: ECDHE-RSA-CHACHA20-POLY1305). Another great feature is that wolfSSL cryptography is FIPS 140-2 validated! Additionally, these features of wolfSSL are not mutually exclusive. For example, the FIPS 140-2 validation can be combined with wolfSSL’s support for TLS 1.3 for a lethal combination of security. The change from yaSSL to wolfSSL will fit nicely into both Open Source and commercial applications, as it is dual licensed under both GPLv2 and standard commercial license terms.

For more information about the port, or to provide us feedback, contact us at!

wolfSSL Intel SGX (#SGX) + FIPS 140-2 (#FIPS140)!

wolfSSL is pleased to announce the following addition to the wolfSSL FIPS certificate!

Debian 8.7.0 Intel ® Xeon® E3 Family with SGX support Intel®x64 Server System R1304SP
Windows 10 Pro Intel ® Core TM i5 with SGX support Dell LatitudeTM 7480

The wolfCrypt FIPS validated cryptographic module has been validated while running inside an Intel SGX enclave and examples have been setup for both Linux and Windows environments.

Intel ® SGX (Software Guard Extensions) can be thought of as a black-box where no other application running on the same device can see inside regardless of privilege. From a security standpoint this means that even if a malicious actor were to gain complete control of a system including root privileges, that actor, no matter what they tried, would not be able to access data inside of this “black-box”.

An Intel enclave is a form of user-level Trusted Execution Environment (TEE) which can provide both storage and execution. Meaning one can store sensitive information inside and also move sensitive portions of a program or an entire application inside.

While testing, wolfSSL has placed both individual functions and entire applications inside the enclave. One of the wolfSSL examples shows a client inside the enclave with the only entry/exit points being “start_client”, “read”, and “write”. The client is pre-programmed with a peer to connect with and specific functionality. When “start_client” is invoked it connects to the peer using SSL/TLS and executes the pre-programmed tasks where the only data entering and leaving the enclave is the info being sent to and received from the peer. Other examples show placing a single cryptographic operation inside the enclave, passing in plain-text data and receiving back encrypted data masking execution of the cryptographic operations.

If you are working with SGX and need FIPS validated crypto running in an enclave contact us at or with any questions. We would love the opportunity to field your questions and hear about your project!


wolfSSL FAQ page

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

wolfSSL Embedded SSL for Bare Metal and No OS Environments

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.

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