The concept of Code Signing SSL Certificates includes protecting users against phony software and assuring that the software is not infected with a virus. Most reputable companies require this certificate before accepting a product and using it. In today’s world, it’s the safest method of guaranteeing that software has not been altered or compromised.
There are several types of Code Signing SSL Certificates. The Business Validation SSL certificate requires that the software manufacturer or developer provide verification documents to the Certificate Authority. Once these documents are submitted, it can take three days for approval. This approval guarantees the authenticity of the digital program.
Code Signing SSL Certificates for Individuals are used less, though still important. If an individual programmer creates an app or software product and wants to include a Code Signing SSL Certificate, then the programmer must provide documents that prove his/her identity. The Certificate Authorities check to make sure this person is who he says and that he is the author of the digital work.
This certificate is a way for the programmer to digitally sign his or her work. An authentic Code Signing SSL Certificate includes a company or individual’s name, their signature, and often a timestamp, though this is not required. With this certificate, end users can feel confident that the program will work as promised. SSL Certificates are used on software programs, applications, script, code, and drivers.
Security on the World Wide Web has become an important commodity. There are phishing attacks launched daily. Along with that, ransomware has become quite prevalent. Attackers lock your computer files then demand a ransom be paid, usually in Bitcoin. Add to that so many computer viruses and worms hid within suspicious links that it’s difficult to keep up today.
In spite of the great amount of publicity about these attacks, many are successful due to a poorly educated public. Most users admit they sometimes click on links or visit sites they probably shouldn’t. It’s human to think that bad things only happen to other people.
Large reputable companies like Microsoft simply can’t take chances with their security or risk exposing end users to harm. The cost in both time and money would be too great; not to mention the damage to their reputation. That makes the Code Signing SSL Certificate very critical to businesses with a strong reputation to protect.
With this certificate, we can be assured of two important elements:
To authenticate a software program, click on the certificate that has been issued. You should be able to view the publisher’s name. There may be other information such as the timestamp. If it isn’t there, then the software originates from an “Unknown Publisher”. It may or may not be authentic. It could contain spyware, ransomware, malware, or other viruses. In some cases, thieves download authentic-looking programs onto your computer with a dangerous script running in the background. These lines of code can allow the Software Pirate to steal passwords and/or personal information.
Just like other SSL Certificates, the Code Signing Certificate is created based on the public-private key pair. Though a key pair is related mathematically, the private key can only be decrypted by its original owner. Public keys are made available to anyone with access to the public repository. If you have a message that you only want one person to be able to read, this can be done using a private key. It always remains confidential and private to its respective owner.
The concept of cryptography began as early as 1874 when William Stanley Jevons wrote a book called The Principles of Science. In it, he described various ways of creating a message that could only be read by the intended party. His theory was to produce a long random number that could only be known by one other person. For years, various mathematicians worked on the idea until 1970 when a British cryptographer working for the UK government came up with what he called, “non-secret encryption”.
Cryptographers and scientists saw the important applications for military use. Being able to send messages that the enemy could not read became a vital function of national security for all governments. Though this type of cryptography is still used today, it’s more common usage now is to protect software programs from alteration.
When an application or program does not have a Code Signing SSL Certificate, any programmer can go into it and change lines of code however they want. This leaves everyone vulnerable. Maybe the programmer improved the software but maybe he added a Trojan worm. Individuals and especially companies have a lot at risk and simply cannot afford to download malware or ransomware that would lock up all their files.
Reputable software manufacturers want to ensure that their products are free from tampering and the Code Signing SSL Certificate makes alteration impossible. It’s the perfect way to let users know that the software or app is authentic.
There are multiple steps required in the process of creating the Code Signing SSL Certificate. The process begins with the actual code signing itself. This confirms the identity of the person or company that created the software. The steps are briefly outlined below:
Once you have a Code Signing SSL Certificate, you can assure users that it’s safe to use and contains no viruses or malware. Big publishers often require these certificates so they can use this as a selling point when reselling the software or app to end users. Many people will not buy a piece of software if it does not have this certificate.
The three sectors with the biggest spending on cybersecurity are banking, manufacturing, and the central/federal government, accounting for 30% of overall spending (IDC).
Forty-three percent of attacks are aimed at SMBs, but only 14% are prepared to defend themselves (Accenture).
The internal team was energized. With the Level 1 work off its plate, the team turned its attention to the work that fueled company growth and gave them job satisfaction.
The average cost of a data breach in the United States is $8.64 million, which is the highest in the world, while the most expensive sector for data breach costs is the healthcare industry, with an average of $7.13 million (IBM).
The cost of cybercrime is predicted to hit $10.5 trillion by 2025, according to the latest version of the Cisco/Cybersecurity Ventures “2022 Cybersecurity Almanac.”.
It takes an average of 287 days for security teams to identify and contain a data breach, according to the “Cost of a Data Breach 2021” report released by IBM and Ponemon Institute.
40% of businesses will incorporate the anywhere operations model to accommodate the physical and digital experiences of both customers and employees (Techvera).
More than 33 billion records will be stolen by cybercriminals by 2023, an increase of 175% from 2018.
We did a proof of concept that met every requirement that our customer might have. In fact, we saw a substantial improvement.
We did everything that we needed to do, financially speaking. We got our invoices out to customers, we deposited checks, all the things we needed to do to keep our business running, and our customers had no idea about the tragedy. It didn’t impact them at all.
“We believe our success is due to the strength of our team, the breadth of our services, our flexibility in responding to clients, and our focus on strategic support.”