WP Bubble One-Click SSL
Google tends to control how the Internet works, how it is indexed, and how we are all seen. With the majority of people using Google as their primary search engine, it is no wonder that we all tend to comply and do what Google asks of us. Several years ago, Google was pushing towards making the Internet more secure and requiring all websites, especially those that did business online, specifically those that took payments from processors such as Paypal or Stripe, to have an SSL certification.
This SSL certification is noted by a lock sign on the address bar with the words, “Secure” right next to it. Some browsers are different, but that lock sign is universal for SSL. SSL stands for Secure Sockets Layer. What it is and what it does is that it ensures all data transferred to and from your website, from the server to the browser, ad vice versa, is encrypted.
This means that any scripts attempting to listen in will be unable to read that data. Hence: credit card information is unable to be read because it’s encrypted by the browser and sent to a server and then the data is received back that a payment was made and everything is good to go.
SSL, however, from most web hosts, tends to be a headache in itself, and turns off the average blogger and business owner from even bothering to add it. Luckily, there are many hosts now offering it for free, but in many cases: you will not get an SSL for free on most shared hosts. Though, if you prefer to try a shared host that has free SSL certificates, we do recommend DreamHost.
Most others do require a payment of $60 or more per year and many more require several days to actually implement it. Why do companies charge? SSL is technically free itself, but it is the work required to create the certificate that most hosts charge for when implementing it and the fact that most SSL needs to be renewed at least once a year in order to prevent hackers from breaking the code and being able to hack that data.
Thus, implementing an SSL certificate might require some technical knowledge and generates a random code is used as the hash key that encrypts the data. Here is what it looks like after it is generated:
-----BEGIN CERTIFICATE REQUEST----- MIICvDCCAaQCAQAwdzELMAkGA1UEBhMCVVMxDTALBgNVBAgMBFV0YWgxDzANBgNV BAcMBkxpbmRvbjEWMBQGA1UECgwNRGlnaUNlcnQgSW5jLjERMA8GA1UECwwIRGln aUNlcnQxHTAbBgNVBAMMFGV4YW1wbGUuZGlnaWNlcnQuY29tMIIBIjANBgkqhkiG 9w0BAQEFAAOCAQ8AMIIBCgKCAQEA8+To7d+2kPWeBv/orU3LVbJwDrSQbeKamCmo wp5bqDxIwV20zqRb7APUOKYoVEFFOEQs6T6gImnIolhbiH6m4zgZ/CPvWBOkZc+c 1Po2EmvBz+AD5sBdT5kzGQA6NbWyZGldxRthNLOs1efOhdnWFuhI162qmcflgpiI WDuwq4C9f+YkeJhNn9dF5+owm8cOQmDrV8NNdiTqin8q3qYAHHJRW28glJUCZkTZ wIaSR6crBQ8TbYNE0dc+Caa3DOIkz1EOsHWzTx+n0zKfqcbgXi4DJx+C1bjptYPR BPZL8DAeWuA8ebudVT44yEp82G96/Ggcf7F33xMxe0yc+Xa6owIDAQABoAAwDQYJ KoZIhvcNAQEFBQADggEBAB0kcrFccSmFDmxox0Ne01UIqSsDqHgL+XmHTXJwre6D hJSZwbvEtOK0G3+dr4Fs11WuUNt5qcLsx5a8uk4G6AKHMzuhLsJ7XZjgmQXGECpY Q4mC3yT3ZoCGpIXbw+iP3lmEEXgaQL0Tx5LFl/okKbKYwIqNiyKWOMj7ZR/wxWg/ ZDGRs55xuoeLDJ/ZRFf9bI+IaCUd1YrfYcHIl3G87Av+r49YVwqRDT0VDV7uLgqn 29XI1PpVUNCPQGn9p/eX6Qo7vpDaPybRtA2R7XLKjQaF9oXWeCUqy1hvJac9QFO2 97Ob1alpHPoZ7mWiEuJwjBPii6a9M9G30nUo39lBi1w= -----END CERTIFICATE REQUEST-----