The 12 Requirements of the PCI DSS

This page outlines the Payment Card Industry Data Security Standard’s 12 requirements and explains how to achieve and maintain compliance with each of them. The requirements apply to “all system components included in or connected to the cardholder data environment” – i.e. the “people, processes and technologies that store, process, or transmit cardholder data or sensitive authentication data”. Note that not all companies need to comply with all 12 requirements: compliance requirements depend on the type and volume of transactions your organisation undertakes, and will be dictated by your acquiring bank.

Compliance with the PCI DSS might seem onerous but it is not solely a matter of legal obligation – its requirements offer strong data security measures that will benefit your organisation. Indeed, the Verizon 2015 PCI Compliance Report found a strong correlation between non-compliance with the PCI DSS and the likelihood of suffering a data breach.

See our main PCI DSS information page for further guidance >>


The 12 requirements of the PCI DSS

Firewalls control the transmission of data between an organisation’s trusted internal networks and untrusted external networks, as well as traffic between sensitive areas of the internal networks themselves. Requirement 1 of the PCI DSS requires systems to use firewalls to prevent unauthorised access. Where other system components provide the functionality of a firewall, they must also be included in the scope and assessment of this requirement.

The default settings of many commonly used systems are well known, easily exploitable and often used by criminal hackers to compromise those systems. Vendor-supplied default settings must, therefore, be changed, and unnecessary default accounts disabled or removed before any system is installed on a network. This applies to all default passwords, without exception. If firewalls are correctly implemented according to Requirement 1, they should also comply with Requirement 2.

The storage of cardholder data should be kept to a minimum, and appropriate data retention and disposal policies, procedures and processes should be implemented. Certain data – such as the full contents of the chip or magnetic strip, the CVN (card verification number) or the PIN (personal identification number) – should never be stored. When data is stored, it should be stored securely. Encryption, truncation, masking and hashing are critical components of cardholder data protection. Without access to the proper cryptographic keys, encrypted data will be unreadable and unusable by criminal hackers, even if they manage to circumvent other security controls. Cryptographic keys should therefore be stored securely and access restricted to the fewest custodians necessary. Other data protection methods should also be considered.

Strong cryptography and security protocols (e.g. TLS, IPSec, SSH, etc.) should be used to safeguard sensitive cardholder data during transmission over open, public networks that could easily be accessed by malicious individuals. Examples of open, public networks include the Internet, wireless technologies (e.g. Bluetooth), GPRS (general packet radio service) and satellite communications. Industry best practices must be followed to implement strong encryption for authentication and transmission. Security policies and procedures for encrypting the transmission of cardholder data must be documented and made known to all affected parties.

Antivirus software capable of detecting, removing and protecting against all known types of malware (e.g. viruses, worms and Trojans) must be used on all systems commonly affected by malware to protect them from threats. For systems not commonly affected by malware, evolving malware threats should be periodically evaluated to determine if antivirus software is needed. Antivirus mechanisms must be maintained and kept actively running, and should only be disabled if formally authorised for a specific purpose.

Many security vulnerabilities are fixed by patches issued by software vendors. Organisations should establish a process to identify security vulnerabilities and rank them according to their level of risk. Relevant security patches should be installed within a month of their release to protect against cardholder data compromise. All software applications, developed internally or externally, should be developed securely in accordance with the PCI DSS. They should also be based on industry standards and/or best practices, and incorporate information security throughout their entire development lifecycle.

Exploiting authorised accounts and abusing user privileges is one of the easiest ways for criminal hackers to gain access to a system. It is also one of the most difficult types of attack to detect. Documented systems and processes should therefore be put in place to limit access rights to critical data. Access control systems should deny all access by default, and access should be granted on a need-to-know basis and according to the clearly defined job responsibilities of authorised personnel. ‘Need to know’ is defined in the PCI DSS as “when access rights are granted to only the least amount [sic] of data and privileges needed to perform a job”.

The ability to identify individual users not only ensures that system access is limited to those with the proper authorisation, it also establishes an audit trail that can be analysed following an incident. Documented policies and procedures must therefore be implemented to ensure proper user identification management for non-consumer users and administrators on all system components. All users must be assigned a unique ID, which must be managed according to specific guidelines. Controlled user authentication management (e.g. the use of passwords, smart cards or biometrics) should also be implemented and, as three-quarters of all network intrusions exploit weak or stolen passwords, 2FA (two-factor authentication) must be used for remote network access.

Electronic data breaches are not the only source of data loss; physical access to systems should also be limited and monitored using appropriate controls. Procedures should be implemented to distinguish between on-site personnel and visitors, and physical access to sensitive areas (e.g. server rooms and data centres) should be restricted accordingly. All media should be physically secured, and its storage, access and distribution controlled. Media should be destroyed in specific ways when no longer required. Devices that capture payment card data via direct physical interaction with the card must be protected from tampering and substitution, and should be periodically inspected. An up-to-date list of these devices should be maintained.

The use of logging mechanisms is critical in preventing, detecting and minimising the impact of data compromise. If system usage is not logged, potential breaches cannot be identified. Secure, controlled audit trails must therefore be implemented that link all access to system components with individual users and log their actions. This includes access to cardholder data, actions taken by individuals with root or administrative privileges, access to audit trails, invalid logical access attempts, use of and changes to identification and authentication mechanisms, the initialising, stopping or pausing of audit logs, and the creation and deletion of system-level objects. An audit trail history should be retained for at least a year, with a minimum of three months’ logs immediately available for analysis. Logs and security events should be regularly reviewed to identify anomalous or suspicious activity.

New vulnerabilities are regularly found and exploited, so it is essential that system components, processes and custom software are regularly tested. Documented processes must be implemented to detect and identify all unauthorised wireless access points on a quarterly basis. Internal and external network vulnerability scans must be performed by qualified personnel at least quarterly and after any significant change in the network (e.g. new system component installations, changes in network topology, firewall rule modifications and product upgrades). Intrusion detection/prevention techniques should be used to identify and/or prevent unauthorised network activity, and a change detection mechanism should be employed to perform weekly critical file comparisons, and to alert personnel to unauthorised system modifications.

To comply with the PCI DSS, organisations must establish, publish, maintain and disseminate a security policy, which must be reviewed at least annually and updated according to the changing risk environment. A risk assessment process must be implemented to identify threats and vulnerabilities, usage policies for critical technologies must be developed, security responsibilities for all personnel must be clearly defined and a formal awareness programme must be implemented. Organisations must also implement an incident response plan so that they can respond immediately to any system breach. 


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Security technologies can only go so far in protecting an organisation and helping maintain compliance. Policies are needed to address the weak link in security: people.

If people don’t know or understand what’s expected of them, they can put cardholder data at risk, regardless of the other security measures you have in place. Policies play an important role in securing data. They are the foundation for everything else as they provide direction and instruction, and assign responsibility.

Understand how to develop PCI policies, including:

  • The differences between a policy, a form and a procedure;
  • How to identify which policies and clauses you need to address; and
  • How to clearly state the tasks and responsibilities your company has when handling payment card data.

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