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What is Incident Response? Definition and Complete Guide

Incident response is an organized, strategic approach to detecting and managing cyberattacks in ways that minimize damage, recovery time and total costs.

Strictly speaking, incident response is a subset of incident management. Incident management is an umbrella term for an enterprise’s broad handling of cyberattacks, involving diverse stakeholders from the executive, legal, HR, communications and IT teams. Incident response is the part of incident management that handles technical cybersecurity tasks and considerations.

Many experts use the terms incident response and incident management interchangeably because both incident management and incident response strategies work to ensure business continuity in the face of a security crisis, such as a data breach. Yet incident response, business continuity and disaster recovery measures play distinct, if complementary, roles in keeping organizations operational despite interruptions. Consider how their primary goals differ:

  • Business continuity. Aims to maintain critical business operations in the face of any kind of expected or unexpected disruption — e.g., a natural disaster, planned downtime or a cyberattack.
  • Disaster recovery. Aims to restore IT functionality after any kind of unexpected disruption — e.g., a natural disaster, a technological outage or a cyberattack.
  • Incident response. Aims to identify, contain and resolve cyberattacks and any problems they cause.

Digital forensics and incident response (DFIR) is an approach to incident response that integrates tools and processes from digital forensics. Digital forensics is a subset of forensic science that involves the collection and analysis of data to fully understand a cyber event, as well as the preservation of evidence for future internal use — such as for reconstruction of a security event — and external use — for example, as digital evidence in court.

Data uncovered through DFIR practices can give incident responders a clearer, more accurate understanding of a security incident, leading to faster recovery, less disruption and a stronger security posture.

While each is distinct, business continuity, disaster recovery and incident response all share the goal of keeping an organization running.

Why is incident response important?

Today, Benjamin Franklin might say the only certainties are ******, taxes and cyberattacks. Research suggests critical security incidents are all but inevitable, thanks to both ********* ingenuity on the attacker’s side and human error on the user’s side. A reactive, disorganized response to an ******* gives bad actors the upper hand and puts the business at greater risk. At worst, the financial, operational and reputational damage from a major security incident could put an organization out of business.

On the other hand, a cohesive, well-vetted incident response strategy that follows incident response best practices limits fallout and positions the business to recover as quickly as possible.

Types of security incidents

In developing incident response strategies, it’s important to first understand how security incidents, vulnerabilities and threats relate.

A vulnerability is a weakness in the IT or business environment. A threat is an entity — whether a malicious hacker or a company insider — that aims to exploit a vulnerability in an *******. To qualify as an incident, an ******* must succeed in accessing enterprise resources or otherwise putting them at risk. Finally, a data breach is an incident in which attackers successfully compromise sensitive information, such as personally identifiable information or intellectual property.

When it comes to cybersecurity, an ounce of prevention is worth a pound of cure. Experts say organizations should fix known vulnerabilities and proactively develop response strategies for dealing with common security incidents. These include the following:

Since all security events are not equally serious, and because enterprises simply do not have the resources to aggressively address each and every one, incident response requires prioritization. Weigh an incident’s urgency and importance to determine if it warrants a full-fledged response. For example, an active ransomware ******* is both urgent — i.e., time-sensitive — and important — i.e., it can put critical IT assets and business continuity at risk. Such an ******* logically warrants a major, expedited response.

Learn more about the top cybersecurity threats enterprises face today.

What is an incident response plan?

An incident response plan is an organization’s go-to documentation that details the following:

  • What. Which threats, exploits and situations qualify as actionable security incidents, and what to do when they occur.
  • Who. In the event of a security incident, who is responsible for which tasks and how others can contact them.
  • When. Under what circumstances team members should perform certain tasks.
  • How. Specifically, how team members should complete those tasks.

An incident response plan acts as a detailed, authoritative map that guides responders from initial detection, assessment and triage of an incident to its containment and resolution.

How to create an incident response plan

Successful incident response requires proactively drafting, vetting and testing plans before a crisis strikes. Best practices include the following:

An incident response plan is a key component of any incident response program.
  1. Establish a policy. An incident remediation and response policy should be an evergreen document describing general, high-level incident-handling priorities. A good policy empowers incident responders and guides them to make sound decisions when the proverbial ********** hits the fan.
  2. Build an incident response team. An incident response plan is only as strong as the people involved. Establish who will handle which tasks, and ensure everyone has adequate training to fulfill their roles and responsibilities.
  3. Create playbooks. Playbooks are the lifeblood of incident response. While an incident response policy offers a high-level view, playbooks get into the weeds, outlining standardized, step-by-step actions responders should take in specific scenarios. Playbook benefits include greater consistency, efficiency and effectiveness — in both incident response and incident responder training.

    Learn how to create playbooks.

  4. Create a communication plan. An incident response plan can’t succeed without a solid communication plan among diverse stakeholders. These could include the incident response, executive, communications, legal and HR teams, as well as customers, third-party partners, law enforcement and the general public.

In general, an incident response plan should include the following components:

  • A plan overview.
  • A list of roles and responsibilities.
  • A list of incidents requiring action.
  • The current state of network infrastructure and security controls.
  • Detection, investigation and containment procedures.
  • Eradication procedures.
  • Recovery procedures.
  • The breach notification process.
  • A list of post-incident follow-up tasks.
  • A contact list.
  • Incident response plan testing.
  • Ongoing revisions.

How to manage an incident response plan

The worst time to find out if an incident response plan has holes is during a real security crisis, which makes ongoing testing critical. Experts advise organizations to hold regular simulations featuring diverse ******* vectors, such as ransomware, malicious insiders and brute-force attacks.

Many enterprises conduct incident response tabletop exercises to vet their plans. A discussion-based tabletop exercise involves talking through the specifics of an ******* and the team’s response. An operational tabletop exercise includes hands-on tasks, with enactment of relevant processes to see how they unfold.

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After both simulated and real security incidents, response teams should do the following:

  • Study what happened and identify lessons learned.
  • Review key incident response metrics — e.g., mean time to detect, mean time to identify, mean time to respond, mean time to contain, total cost, etc. — and analyze how metrics from the recent incident compare.
  • Note any security gaps that emerged.
  • Recommend appropriate additional controls.
  • Brainstorm ways to improve processes.
  • Update the incident response plan accordingly.

Remember, an incident response plan is not a set-it-and-forget-it proposition. It should continually evolve to reflect changes in the threat landscape, IT infrastructure and business environment. Experts recommend formal, comprehensive reassessments and revisions annually, at the very least.

Incident response frameworks: Phases of incident response

Rather than trying to recreate the wheel, an organization looking to build an incident response plan can refer to established incident response frameworks for high-level guidance and direction.

Well-known frameworks from NIST, ISO and SANS Institute all differ slightly in their approaches, yet they each describe similar phases of incident response:

  1. Preparation/planning. Build an incident response team and create policies, processes and playbooks; deploy tools and services to support incident response.
  2. Detection/identification. Use IT monitoring to detect, evaluate, validate and triage security incidents.
  3. Containment. Take steps to stop an incident from worsening and regain control of IT resources.
  4. Eradication. Eliminate threat activity, including malware and malicious user accounts; identify any vulnerabilities the attackers exploited.
  5. Recovery. Restore normal operations and mitigate relevant vulnerabilities.
  6. Lessons learned. Review the incident to establish what happened, when it happened and how it happened. Flag security controls, policies and procedures that functioned suboptimally and identify ways to improve them. Update the incident response plan accordingly.

Who is responsible for incident response?

Behind every great incident response program is a coordinated, efficient and effective incident response team. After all, without the right people to support them and put them into practice, security policies, processes and tools mean very little. This cross-functional group consists of people from diverse parts of the organization who are responsible for completing the steps and processes involved in incident response.

Types of incident response teams

The three most common types of incident response teams are as follows:

  • Computer security incident response team (CSIRT).
  • Computer incident response team (CIRT).
  • Computer emergency response team (CERT).

These acronyms are often used interchangeably in the field, and the teams generally have the same goals and responsibilities. One important note is that the name CERT is a registered trademark of Carnegie Mellon University, so companies must apply for authorization to use it.

Another term commonly heard during an incident response team conversation is security operations center (SOC). A SOC encompasses the people, tools and processes that manage an organization’s security program. While SOC teams might be responsible for incident response, it is not their sole task within an organization. In addition, SOC teams’ duties can include conducting asset discovery and management, keeping activity logs and ensuring regulatory compliance, among others.

Learn more about CSIRTs, CIRTs, CERTs and SOCs.

Incident response team members

The size of an incident response team and the members included will vary based on the individual organization’s needs. Some members could even fill multiple roles and responsibilities.

In general, an incident response team consists of the following members:

  • Technical team. This is the core incident response team of IT and security members who have technical expertise across company systems. It often includes an incident response manager, incident response coordinator, team lead, security analysts, incident responders, threat researchers and forensic analysts.
  • Executive sponsor. This is an executive or board member, often the CSO or CISO.
  • Communications team. This includes PR representatives and others who manage internal and external communications.
  • External stakeholders. Members include other employees or departments within the organization, such as IT, legal or general counsel, HR, PR, business continuity and disaster recovery, physical security and facilities teams.
  • Third parties. These external members might include security or incident response consultants, external legal representation, MSPs, managed security service providers, cloud service providers (CSPs), vendors and partners.
A well-developed incident response team is vital to ensuring incident response activities happen as planned.

What does an incident response team do?

The chief goals of an incident response team are to detect and respond to security events and minimize their business impact. As such, team responsibilities largely align with the phases outlined in an incident response framework and plan. Team tasks include the following:

  • Prepare for and prevent security incidents.
  • Create the incident response plan.
  • Test, update and manage the incident response plan before use.
  • Perform incident response tabletop exercises.
  • Develop metrics to analyze program initiatives.
  • Identify security events.
  • Contain security events, quarantine threats and isolate systems.
  • Eradicate threats, discover root causes and remove affected systems from production environments.
  • Recover from threats and get affected systems back online.
  • Conduct follow-up activities, including documentation, incident analysis and identifying how to prevent similar events and improve future response efforts.
  • Review and update the incident response plan regularly.

Incident response in the cloud

As enterprise cloud use proliferates, the importance of including the cloud in incident response processes increases. The goals of cloud incident response are the same as in traditional incident response but with some caveats.

Consider the shared responsibility model, for example. With on-premises applications, platforms and infrastructure, an organization’s IT and security teams are generally in charge of all management and security tasks. With SaaS, PaaS and IaaS, on the other hand, some or all responsibility shifts to CSPs. This can make incident detection and investigation more difficult or even impossible, depending on the deployment.

Cloud incident response might also require new tools and skill sets, as well as a deeper knowledge of cloud security incidents and threats. Traditional tools might not work properly — or at all — in cloud environments. New tools and procedures not only add to what incident response teams must learn and manage but could also require extra budget.

Learn more about cloud incident response, including the Cloud Security Alliance’s framework and best practices for including the cloud in incident response programs.

Incident response tools and technologies

As Benjamin Franklin once said, “The best investment is in the tools of one’s own trade.” In the case of incident response, teams need a mix of tools and technologies — many of which are likely already deployed in their security programs.

To help decide which processes and tools will best prevent, detect, analyze, contain, eradicate and recover from incidents, many organizations rely on the military-derived OODA loop, short for observe, orient, decide and act. This decision-making approach focuses on choosing incident response tools that help teams gain visibility into systems, contextualize intelligence about threats, find the best response actions and carry out response.

Typically categorized by their detection, prevention and response functionalities, incident response tools include the following:

  • Antimalware.
  • Backup and recovery tools.
  • Cloud access security broker.
  • Data classification tools.
  • Data loss prevention.
  • DoS mitigation.
  • Employee security awareness training.
  • Endpoint detection and response.
  • Firewalls.
  • Forensic analysis.
  • Intrusion prevention and detection systems.
  • Security information and event management (SIEM).
  • Security orchestration, automation and response (SOAR).
  • Vulnerability management.

Managing all these tools can be a lot for a security team to handle. Automation in incident response can help reduce alert fatigue, perform alert triage, automatically investigate and respond to threats, automate ticketing and alerting, conserve human efforts for more high-value activities, respond and resolve issues faster, automate case management and reporting, and save money.

Contemplating whether to handle incident response in-house versus outsourcing some or all incident response duties? In-house incident response requires the proper staff, tools and budget. It’s also important to consider the nature and complexity of the threats the organization faces. In some scenarios, in-house incident response might be the best bet. Organizations facing more serious threats, however — or those that have multiple locations, each facing unique threats — could be better served by outsourcing their incident response needs.

Service providers often offer incident response services, such as the following, on retainer or on an emergency basis:

  • Managing threat detection and response.
  • Providing threat prevention services.
  • Conducting ************ tests and threat hunting.
  • Assisting with media and PR management.
  • Conducting root cause analysis.
  • Conducting crisis management.
  • Maintaining regulatory compliance.

Get help deciding between deploying incident response in-house or employing a service provider, and read up on the leading incident response software, vendors and service providers.

Incident response and SOAR

SOAR is one of the newest tools to join the incident response arsenal. As such, confusion surrounds what it is and what it does. Its capabilities sound similar to those of SIEM, adding to the confusion.

Security orchestration, automation and response is a collection of technologies that, when combined, help security teams aggregate, analyze, detect and respond to security events with little or no human input. The main functions of each component of SOAR are outlined below:

  • Security orchestration. This function connects and integrates internal and external tools through built-in or custom integrations and APIs. It collects and consolidates data collected by various tools to initiate response functions, based on defined incident analysis parameters and processes.
  • Security automation. This function uses the data collected during security orchestration to trigger workflows and tasks based on defined thresholds and actions, as ***** out in incident response playbooks. SOAR platforms can automatically remediate lower-risk vulnerabilities and complete low-level tasks historically performed by human analysts, such as vulnerability scanning. High-risk threats also can automatically escalate to security analysts for further investigation.
  • Security response. Delivered via a single view, this function enables security, network and systems analysts to access and share threat intelligence, collaborate and conduct post-incident response activities.
The four components of SOAR tools enable teams to collect, analyze, find and respond to security incidents.

SIEM systems’ operations are similar to those of SOAR platforms, but they lack a key feature: automated response. SIEM systems simply alert teams about potential incidents; they do not trigger automated actions. SIEM and SOAR have similar mean time to detect, but SOAR excels with mean time to respond, thanks to automated capabilities.

SOAR platforms augment human analysts with the following capabilities:

  • Threat intelligence coordination.
  • Case management.
  • Vulnerability management.
  • Automated enrichment for remediation.
  • Threat hunting.
  • Incident response automation.

In these use cases, SOAR platforms can help improve productivity; automate repetitive, tedious and low-importance tasks; use existing security tools better and more contextually; and improve third-party tool integration, among other benefits. SOAR platforms aren’t without challenges, however. Namely, SOARs might not be able to integrate with all security tools easily or at all, do not address security culture within an organization and could fail to live up to inflated user expectations.

Learn more about the benefits and challenges of SOAR systems.

Incident response: Don’t wait for an ******* to occur

Incident response is a cornerstone of any enterprise cybersecurity program; its importance cannot be overstated. Quickly responding to security incidents effectively and efficiently helps minimize damage, improve recovery time, restore business operations and avoid high costs.

But as Benjamin Franklin would attest, “Look before or you’ll find yourself behind.” In other words, prevention is key. A well-thought-out incident response plan and top-notch incident response team will prepare organizations for when the inevitable happens. But the first line of defense should always be keeping networks and data safe, as well as ensuring users are empowered and security-aware.

Alissa Irei is senior site editor of TechTarget Security.

Sharon Shea is executive editor of TechTarget Security.

This was last updated in January 2024



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