PolarSSL is a light-weight cryptographic and SSL/TLS library written in C. PolarSSL makes it easy for developers to include cryptographic and SSL/TLS capabilities in their (embedded) applications with as little hassle as possible. Loose coupling of the components inside the library means that it is easy to separate the parts that are needed, without needing to include the total library. PolarSSL is written with embedded systems in mind and has been ported on a number of architectures, including ARM, PowerPC, MIPS, and Motorola 68000. The source is written to have very loose coupling, enabling easy integration of parts in other software projects. Very loosely coupled cryptographic algorithms for MD2, MD4, MD5, SHA1, SHA-256, SHA-512, AES, Camellia, DES, Triple DES, ARC3, and RSA are included.
Z1 CertServer (formerly Z1 Backbone Of Trust CertServer) is a server-based software solution for the storage and administration of X.509 certificates and OpenPGP keys. It targets customers who use a public key infrastructure (based on X.509 or OpenPGP) and who want to take advantage of the central access to certificates. It also automatically validates certificates by querying certificate revocation lists (CRLs) from the issuing trust centers, or by using OCSP (Online Certificate Status Protocol). Java and C/C++ SDKs are provided. It is available as pre-installed hardware or a virtual appliance, with evaluation packages for Debian and Solaris.
MQ Standard Security Exit is a solution that allows a company to control and restrict who is accessing a WebSphere MQ resource. The security exit will operate with WebSphere MQ v6.0, v7.0, v7.1, or v7.5 in Windows, IBM i (OS/400), Unix, and Linux environments. It works with Server Connection, Receiver, Requestor, and Cluster-Receiver channels of WebSphere MQ queue manager. The MQ Standard Security Exit solution is comprised of a server-side security exit.
MQ Channel Encryption (MQCE) is a solution that provides AES encryption for message data flowing between WebSphere MQ (WMQ) resources. It operates with Sender, Receiver, Server, Requestor, Cluster-Sender, Cluster-Receiver, Server Connection, and Client Connection channels of the WMQ queue managers. It is a simple drop-in solution and can be configured as a queue manager channel message exit or as a channel sender/receive exit pair.
MQ Authenticate User Security Exit (MQAUSX) is a solution that allows a company to fully authenticate a user who is accessing a WebSphere MQ resource. It verifies the user's user ID and password (and possibly domain name) against the server's native OS system (or domain controller) or a remote LDAP server. The security exit will operate with WebSphere MQ v6.0, v7.0, v7.1, or v7.5 in Windows, iSeries (OS/400), Unix, and Linux environments. It works with Server Connection, Client Connection, Sender, Receiver, Server, Requestor, Cluster-Sender, and Cluster-Receiver channels of WebSphere MQ queue manager. The MQ Authenticate User Security Exit solution is comprised of 2 components: client-side security exit and server-side security exit.
DJIGZO Email Encryption Gateway is a centrally managed email server that encrypts and decrypts incoming and outgoing email at the gateway level. Djigzo currently supports two encryption standards: S/MIME and PDF encryption. The built-in Data Leak Prevention (DLP) module can be used to prevent certain information from leaving the organization via email. DLP can be configured to filter on credit card numbers, bank account numbers, excessive amounts of email addresses or other personal information in one email message, and more. DJIGZO can be installed on most Linux and Unix based systems. Installation packages are available for Ubuntu, Debian, Red Hat and CentOS. A ready to run virtual appliance for VMware and Hyper-V is available. An add-on for BlackBerry is available.
CloudVPN is a secure decentralized mesh networking tool. It allows applications to use it as a mesh transport layer for packet routing, easily creating mesh ethernet VPN, secured audio/video broadcasting or communication channels, etc. It can create secured networks with special or weird topologies, so it's very easy to create connection schemes with clustered/decentralized servers, topologies with better throughput, ring-like topologies for failover, long-line for passing through many routes, or tree topology for optimizing inter-server bandwidth needs.