Using namespace keyple::core::seproxy::protocol Ĭonfigure the PC/SC plugin and the readers Using namespace keyple::core::seproxy::message Using namespace keyple::core::seproxy::exception Using namespace keyple::core::seproxy::event Using namespace keyple::core::command::exception Using namespace keyple::common::exception Using namespace keyple::calypso::transaction Using namespace keyple::calypso::command::sam Using namespace keyple::calypso::command::po::parser Using namespace keyple::calypso::command::po::builder Using namespace keyple::calypso::command::po #OMNIKEY 5421 CODE#Create the class skeletonĬopy the source code below in a new C++ Class named That follow or copy the whole class at the bottom of this page. You can either progressively copy each of the small portions of code Quantity of code and knowledge that far exceeds what is implemented Possible to perform very simply operations that normally require a Probably be different, but the point here is to show how Keyple makes it In a real ticketing application, the organization of the code would #OMNIKEY 5421 HOW TO#Now let’s see step by step how to create in one single class theĮlements that allow a certified reading of data through a Calypso secure The example can run on any machine: Linux, Windows and macOS. In this guide CMake is used as build automation tool. To handle the commands sent to the Calypso PO and the Calypso SAM. To provide the ability to manage PC/SC readers, Which is the base component to which all the others refer, We will use three main components of Keyple: hidglobal.The demonstration application created for this quick start requires aĬalypso PO (contactless smart card, mobile phone with contactlessĬommunication) and a Calypso Secure Access Module (SAM). It can be ordered with several accessories and mounting options. For design flexibility, the professional line desktop housing aligns seamlessly with any modern working environment. It is also interoperable with NFC-enabled devices and tags. The reader supports the most common high frequency cards on the market including iCLASS®, MIFARE® and MIFARE DESFire®. #OMNIKEY 5421 DRIVER#Known for high reliability in the field, the OMNIKEY 5421 reader is based on the proven driver and hardware technology to ensure greater stability, durability and compliance. Utilizing contactless smart card technology for PC-linked applications, thin- and zero-client environments the reader provides users with the convenience, speed and security for applications such as user authentication to PCs, software, cloud-based applications, networks and web sites. The solution features a dualinterface, PC-linked reader that reads / writes to both a 13.56 MHz contactless smart card and virtually any contact smart card to support environments where both contact and contactless smart card technologies are required. Contactless 2048 bit key generation in RSA mode (JCOP / SMART-MX) The OMNIKEY® 5421 represents the ultimate combination of contact and contactless technology in a single device.Infineon: My-d (in secure mode UID only).NXP: MIFARE®, MIFARE® Ultralight, MIFARE DESFire®, SMART-MX and ICODE (including credentials emulated by mobile phones in NFC card modulation mode). #OMNIKEY 5421 ISO#
0 Comments
Leave a Reply. |
Details
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |