Digital Trust for:
Enterprise IT, PKI & Identity
Code & Software Signing
Documents & eSignatures
IoT & Connected Devices
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Industry Standards for Security & Trust
Code signing is the process of applying a digital signature to a software binary or file. This digital signature validates the identity of the software author or publisher and verifies that the file has not been altered or tampered with since it was signed. Code signing is an indicator to the software recipient that the code can be trusted, and it plays a pivotal role in combating malicious attempts to compromise systems or data.
Use cases for code signing include software for internal or external use, patches or fixes, testing, IoT device product development, computing environments, and mobile apps. Apart from code and software, code signing also applies to applications, firmware, files, messages, XML, scripts, containers, and images.
As with other PKI technologies, code signing involves a public/private key pair, a Certificate Authority and a digital certificate. When a publisher signs software, they create a bounded package that includes the publisher’s software, a code signing certificate and a digital signature. The code signing certificate contains the identity and public key of the publisher as well as the CA’s signature confirming that the CA has verified the identity. The digital signature is the signed hash of the software using the publisher’s private key. When the software is delivered, the user agent will check the certificate for validity and integrity (determining whether the software has been altered since signing). It uses the public key in the certificate to reveal the hash in the digital signature. It then compares the digital signature hash to the recently calculated hash from the software. If the hashes match, the customer or user is assured that the software has not been tampered with. Private key management is a critical security element in code signing. If the key is stolen or mismanaged, cybercriminals can use the key to sign malicious code and deliver it as updates to developer or customer systems.
Code signing is required by major software platforms such as Java and Microsoft to prevent malware propagation. It is also security best practice to sign code so that customers or users do not download tampered code or code from unknown sources. It distinguishes code or software from your organization versus code that may be packaged to look like it originated from your organization. Furthermore, when the software is made publicly available, users may encounter security warning labels when the software is not signed. When code is built and developed for internal use, code signing facilitates accountability and control.
Any type of binary or file can be signed, including:
• Software applications made available for download from websites
• Internal IT applications
• Mobile applications
• XML files
• Scripts
• Software images
• Containers
• Drivers and utilities
• Firmware
First, a software publisher generates a public/private key pair. Then they obtain a code signing certificate by submitting a Certificate Signing Request (CSR) along with their public key to a Certificate Authority (CA). The CA verifies the identity of the publisher and authenticates the certificate request. If successful, the CA issues the code signing certificate. The certificate includes the identity of the publisher, the public key and the signature of the CA. The signature of the CA is important, as it acts as a trusted third-party testimonial to the identity of the certificate bearer. The code signing certificate confirms not only the identity of the publisher, but also the integrity of the software. When the publisher signs software, they create a bounded package that includes the software, the code signing certificate and a digital signature.
The digital signature also requires the following steps:
Code signing can be performed manually or automated as part of a software development lifecycle such as a Continuous Integration/Continuous Delivery (CI/CD) process.
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