Despite potential security concerns, primarily data encryption and multiple-factor authentication related, mobile transactions continue to increase their share of the market, accounting for up to half of online transactions. Mobile payments now account for 30%+ of all global online transactions as of Q3 2015, continuing the upward trend experienced for the last several years. Although there are global differences in mobile transaction adoption, all global locations are experiencing rapid growth in mobile transaction adoption. Furthermore, as a general rule of thumb, seemingly ~66% of mobile transactions originate from a smartphone, a ~2:1 ratio when compared with tablet devices. Therefore it seems highly probable that smartphone originated mobile transactions will become the de facto standard for online transactions…
For System z users, the majority of their TCO continues to be IBM MLC software related and seemingly the realm of possibility exists for retail operations to reduce IBM MLC TCO as a result of modernizing their business for this mobile transaction phenomenon. Recognizing the security, scalability and transaction ability of the System z platform, why wouldn’t it be the ideal platform for mobile transactions? Furthermore, deploying mobile workloads that can take advantage of modern low cost System z pricing metrics, namely System z Collocated Application Pricing (zCAP) and Mobile Workload Pricing (MWP) for z/OS, could substantially reduce IBM MLC TCO. In theory, existing legacy applications might become somewhat static in nature, as mobile transactions replace existing traditional transaction mechanisms. Therefore the cost per business transaction reduces, potentially significantly.
So, just how easy is it to connect mobile transactions to the System z platform?
z/OS Connect provides a discovery function allowing developers to query services that have been configured for a z/OS Connect instance. A single z/OS Connect REST call returns a list of all configured services and another REST call will return the details of a given service. Importantly, developers only need to know the REST API service and associated JSON requirements to achieve this mobile device to System z interoperability; they do not need to know the underlying CICS or IMS subsystem. z/OS Connect incorporates a data conversion function that maps JSON to the host (I.E. CICS or IMS) data format requirement. Put really simply, when a request is received, z/OS Connect converts the data for CICS or IMS subsystem processing and when a response is produced, z/OS Connect converts the data back to JSON.
From a security viewpoint, standard or bespoke code can be used for control before and after a request is processed, identified as an interceptor. For Security, the calling user identity can be checked against defined roles, determining if they have authority to use z/OS Connect or the configured service. On z/OS the security interface is SAF, supplemented by an External Security Manager (ESM), namely ACF2, RACF or TopSecret. For Audit, request information can be logged via SMF for later analysis. Information about each request is logged, including timestamp, bytes processed, response time and USERID.
To summarize, z/OS Connect is designed to simplify the integration of mobile systems and z/OS assets. Delivering a consistent front-end interface for mobile systems via REST and JSON, z/OS Connect seamlessly integrates with WAS, CICS and IMS subsystems for data processing. In theory, a developer could code a mobile workload application, with no knowledge of the System z platform.
In conclusion, it seems we have to accept the adoption of the smartphone device for processing an ever increasing amount of online transactions. The realm of possibility exists that online transactions (click) will continue to displace traditional and legacy (brick) transactions. Therefore as businesses evolve to accommodate mobile transactions, they should strive to reduce their IBM MLC TCO accordingly, delivering JSON and REST applications that can leverage from optimal cost z/OS MLC software, primarily via the zCAP and MWP pricing mechanisms. z/OS Connect is one such option that simplifies the timely delivery of mobile workload applications.