RECENT BLOG NEWS

The wolfMQTT client now supports connecting to v5.0 enabled brokers. Handling properties received from the server is accomplished via a customizable callback. The following v5.0 specification features are supported by the wolfMQTT client:

• AUTH packet
• User properties
• Server connect ACK properties
• Format and content type for publish
• Server disconnect
• Reason codes and strings
• Maximum packet size
• Server assigned client identifier
• Subscription ID
• Topic Alias

As a side note, wolfMQTT uses the wolfSSL embedded SSL/TLS library for SSL/TLS support.  Since wolfSSL supports TLS 1.3, your wolfMQTT-based projects can now use MQTT with TLS 1.3 with a supported broker!

You can download the latest release from our website or clone on GitHub. For more information please email us at 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

The MQTT Sensor Network standard provides a lightweight networking protocol perfectly suited to low cost, low power hardware. The protocol allows using small topic identifiers in place of the full topic name when sending and receiving publish data.

The wolfMQTT SN Client implementation is based on the OASIS MQTT-SN v1.2 specification. The SN API is configured with the --enable-sn option. There is a separate API for the sensor network API, which all begin with the "SN_" prefix. The wolfMQTT SN Client operates over UDP, which is distinct from the wolfMQTT clients that use TCP. The following features are supported by the wolfMQTT SN Client:

• Register
• Will topic and message set up
• Will topic and message update
• All QoS levels
• Variable-sized packet length field

You can download the latest release of wolfMQTT from our website or clone on GitHub. For more information please email us at info@wolfssl.com.

wolfSSL will be attending ECS 2018 this upcoming week in Stockholm, Sweden. Stop by to talk with engineering manager and software developer Chris Conlon, or with business director Rodney Weaver.

ECS 2018 will be held on November 6th and 7th, at the Kitsamässan event center, with wolfSSL attending both of these days.

Additionally, Chris Conlon will be giving a talk titled "Secure Communications with TLS using wolfSSL", on November 6th at 11:30am, in Room M1.

Stop by to hear more about wolfSSL, TLS, licensing, to hear Chris's talk, or to pick up some neat stickers! We look forward to seeing you there!

For more information about wolfSSL's attendance at this event or future events, please feel free to contact info@wolfssl.com.

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.

Are you curious about wolfSSL support for the uITRON RTOS?  We recently added SSL/TLS server/client example projects running on top of uITRON and TINET (their network layer API). This API is incompatible with BSD,  so this is also a good demo how wolfSSL can fit into a non-BSD API easily.

These demo projects are currently in the wolfSSL master branch on GitHub, and will roll into the next stable release of wolfSSL!

You can download the demo today by cloning an up to date wolfSSL package from our repository:
https://github.com/wolfssl/wolfssl

The demo files are located under “IDE/Renesas/cs+/Projects/t4_demo”. This demo is assumed to be built with AlphaProject board with Renesas RX family MPU and its default firmware or driver. It includes TINET TCP/IP compatible Renesas firmware, T4Tiny. For information on building the project, refer to the README located in the demo directory.

Renesas: https://www.renesas.com/us/en/
Renesas RX family: https://www.renesas.com/us/en/products/microcontrollers-microprocessors/rx.html
AlphaProject: https://www.apnet.co.jp/

If you are interested in using the wolfSSL embedded SSL/TLS library on this platform, contact us at support@wolfssl.com for help getting up and running! wolfSSL also supports TLS 1.3, FIPS 140-2, and integration into many different hardware cryptography implementations!

Additionally, the picture below displays the AlphaProject board with the Renesas RX family MPU itself:

wolfSSL has added in SFTP (SSH File Transfer Protocol) server and client capabilities with the wolfSSH product. An SFTP connection can be used to transfer files, create new directories, modify directory contents, and much more. The SFTP feature was created to allow for use in an embedded IoT project and was made to be easily portable for new environments. In addition to SFTP capabilities the wolfSSH library uses the progressive crypto library wolfCrypt from wolfSSL. This includes the ability to use FIPS code along with making use of the best tested crypto!

To enable SFTP or SCP, build wolfSSH with the following enable flags: --enable-sftp --enable-scp.

If you have questions, or need SFTP/SCP services, contact us at info@wolfssl.com

The QSslSocket class in QT makes it easy to add encryption to your application.

wolfSSL makes it secure!

The wolfSSL embedded SSL/TLS library is a lightweight SSL/TLS library written in ANSI C and targeted for embedded, RTOS, and resource-constrained environments - primarily because of its small size, speed, and feature set.  It is commonly used in standard operating environments as well because of its royalty-free pricing and excellent cross-platform support. wolfSSL supports industry standards up to the current TLS 1.3 and DTLS 1.2 levels, is up to 20 times smaller than OpenSSL, supports FIPS, and has critical interfaces like TPM 2.0 and  PKCS#11.

The recent wolfSSL integration with QT provides a lightweight and performance-minded alternative for the QT Network backend for SSL/TLS.

To learn more about the advantages of using wolfSSL, visit our page on “wolfSSL vs. OpenSSL”.  If you have any questions about using wolfSSL in your application or replacing OpenSSL with wolfSSL, please reach out to our support team at support@wolfssl.com!

wolfSSL provides support for the i.MX6 and i.MX7, which can use NXP's Cryptographic Assistance and Assurance Module (CAAM) to perform hardware encryption. This use of hardware encryption provides a significant performance increase when used on larger buffers, which can be seen on wolfSSL's benchmark page.

 To show this performance increase in action, wolfSSL has run its benchmarks on an NXP i.MX6 with Green Hills INTEGRITY OS. The wolfSSL benchmark application runs various hashing algorithms and records the how efficiently and quickly they were performed. Below is a comparison of the data from software encryption benchmarks and hardware encryption benchmarks, showing how well the CAAM can improve performance:

Hardware encryption speeds (MB/s):

Software encryption speeds (MB/s):

References:
More information about NXP's cryptographic acceleration technology: https://www.nxp.com/applications/solutions/internet-of-things/secure-things/network-security-technology/cryptographic-acceleration-technology:NETWORK_SECURITY_CRYPTOG
NXP's i.MX6 product pages: https://www.nxp.com/products/processors-and-microcontrollers/arm-based-processors-and-mcus/i.mx-applications-processors/i.mx-6-processors:IMX6X_SERIES
NXP's i.MX7 product pages: https://www.nxp.com/products/processors-and-microcontrollers/arm-based-processors-and-mcus/i.mx-applications-processors/i.mx-7-processors:IMX7-SERIES