Early Lessons from the Sisense Breach
2024-4-15 23:0:51 Author: securityboulevard.com(查看原文) 阅读量:4 收藏

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Early Lessons from the Sisense Breach

The U.S. Cybersecurity and Infrastructure Security Agency (CISA) is investigating a breach at business intelligence company Sisense. According to security researcher Brian Krebs, the breach involved attackers accessing a self-managed GitLab repository, leading to the exfiltration of customer data, including millions of access tokens and SSL certificates. This incident illustrates the mandatory need for encrypted data storage and vigilant protection of access credentials.

Incident Recap

  1. CISA alerted of a breach at Sisense, advising customers to reset credentials and secrets.
  2. Attackers gained access to Sisense's self-managed GitLab.
  3. A hard-coded token gave attackers access to Sisense’s Amazon S3 buckets in the cloud.
  4. This access led to the copying and exfiltration of terabytes of data from Amazon S3 buckets.
  5. Exfiltrated data included millions of access tokens, email passwords, and SSL certificates.
  6. The breach has raised concerns regarding the encryption of sensitive customer data at rest.
  7. Sisense's response included detailed advice for customers on resetting a wide range of credentials and secrets.

Long Story

The U.S. Cybersecurity and Infrastructure Security Agency (CISA) has issued a warning to chief information security officers (CISOs) about a significant security breach at Sisense, a business intelligence company. Sisense's services, which facilitate the monitoring of multiple third-party online services through a single dashboard, are utilized by over a thousand organizations across various sectors. The breach was first acknowledged by Sisense's CISO, highlighting the discovery of company information on a restricted server and prompting an immediate and thorough investigation with assistance from top industry experts.

While details on how the hackers obtained the data haven't been released, KrebsonSecurity cited multiple sources who said hackers accessed Sisense's self-managed GitLab repository, leading to the compromise of sensitive customer data stored within Amazon S3. The attackers managed to exfiltrate several terabytes of critical data, including access tokens, email passwords, and SSL certificates—a testament to the scope and severity of the breach. 

This incident suggests at least two security failures for Sisense: the presence of hardcoded AWS credentials in GitLab repositories and the storage of customer-sensitive data unencrypted in the cloud. This has raised many questions about Sisense's data security measures.

In response to the breach, Sisense has issued comprehensive guidance to its customers, advising on the reset of various credentials and secrets potentially compromised. This includes instructions for changing passwords, rotating tokens, and other security measures aimed at mitigating the impact of the breach on its customers and their data security (see Recommendations below).

Lesson Learned

The Sisense breach is another unfortunate illustration of the consequences of improper handling of secrets, or secrets sprawl. When secrets are left embedded in plaintext in source code, they become high-impact vulnerabilities. GitGuardian's suite of tools offers invaluable resources for detecting and remedying such exposures before they escalate into full-blown security disasters, showcasing the critical role of proactive security in today's digital landscape. While tools alone cannot prevent all forms of attack, they serve as an essential first line of defense in identifying and addressing potential security lapses.

 "Encryption at rest for sensitive data is a non-negotiable security measure. So is the imperative to eliminate hard-coded credentials in source code repositories, as they always lead to further damages in case of a breach."

Recommendations for Sisense customers:

  1. Urgently rotate any credentials used within the Sisense application.
  2. Reset passwords for all users in the Sisense application.
  3. Log out all users to invalidate current sessions.
  4. Update the x.509 certificate for SSO SAML identity providers.
  5. For OpenID utilization, rotating the client secret is imperative.
  6. Reset credentials in databases used within Sisense to ensure system connectivity.
  7. Change usernames and passwords in database connection strings.
  8. Rotate credentials in every Git project.
  9. Use PATCH api/v2/b2d-connection to update B2D connections.
  10. Rotate keys associated with Infusion Apps.
  11. Rotate all web access tokens.
  12. Reset secrets present in custom code notebooks.

*** This is a Security Bloggers Network syndicated blog from GitGuardian Blog - Code Security for the DevOps generation authored by Thomas Segura. Read the original post at: https://blog.gitguardian.com/sisense-breach/

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Thomas Segura

What You Need to Scale AppSec Thomas Segura - Content Writer @ GitGuardian Author Bio Thomas has worked both as an analyst and as a software engineer consultant for various big French companies. His passion for tech and open source led him to join GitGuardian as technical content writer. He focuses now on clarifying the transformative changes that cybersecurity and software are going through. Website:https://www.gitguardian.com/ Twitter handle: https://twitter.com/GitGuardian Linkedin: https://www.linkedin.com/company/gitguardian Introduction Security is a dilemma for many leaders. On the one hand, it is largely recognized as an essential feature. On the other hand, it does not drive business. Of course, as we mature, security can become a business enabler. But the roadmap is unclear. With the rise of agile practices, DevOps and the cloud, development timeframes have been considerably compressed, but application security remains essentially the same. DevSecOps emerged as an answer to this dilemma. Its promise consists literally in inserting security principles, practices, and tools into the DevOps activity stream, reducing risk without compromising deliverability. Therefore there is a question that many are asking: why isn't DevSecOps already the norm? As we analyzed in our latest report DevSecOps: Protecting the Modern Software Factory, the answer can be summarized as follows: only by enabling new capacities across Dev, Sec and Ops teams can the culture be changed. This post will help provide a high-level overview of the prerequisite steps needed to scale up application security across departments and enable such capabilities. From requirements to expectations Scaling application security is a company-wide project that requires thorough thinking before an y decision is made. A first-hand requirement is to talk to product and engineering teams to understand the current global AppSec maturity. The objective at this point is to be sure to have a comprehensive understanding of how your products are made (the processes, tools, components, and stacks involved). Mapping development tools and practices will require time to have the best visibility possible. They should include product development practices and the perceived risk awareness/appetite from managers. One of your objectives would be to nudge them so they take into account security in every decision they make for their products, and maybe end up thinking like adversaries. You should be able to derive security requirements from the different perceptual risks you are going to encounter. Your job is to consolidate these into a common set for all applications, setting goals to align the different teams collaborating to build your product(s). Communicating transparently with all relevant stakeholders (CISO, technical security, product owner, and development leads) about goals and expectations is essential to create a common ground for improvement. It will be absolutely necessary to ensure alignment throughout the implementation too. Open and accessible guardrails Guardrails are the cornerstone of security requirements. Their nature and implementation are completely up to the needs of your organization and can be potentially very different from one company to the other (if starting from scratch, look no further than the OWASP Top10). What is most important, however, is that these guardrails are open to the ones that need them. A good example of this would be to centralize a common, security-approved library of open-source components that can be pulled from by any team. Keep users' accessibility and useability as a priority. Designing an AppSec program at scale requires asking “how can we build confidence and visibility with trusted tools in our ecosystem?”. For instance, control gates should never be implemented without considering a break-glass option (“what happens if the control is blocking in an emergency situation?”). State-of-the-art security is to have off-the-shelf secure solutions chosen by the developers, approved by security, and maintained by ops. This will be a big leap forward in preventing vulnerabilities from creeping into source code. It will bring security to the masses at a very low cost (low friction). But to truly scale application security, it would be silly not to use the software engineer's best ally: the continuous integration pipeline. Embed controls in the CI/CD AppSec testing across all development pipelines is the implementation step. If your organization has multiple development teams, it is very likely that different CI/CD pipelines configurations exist in parallel. They may use different tools, or simply define different steps in the build process. This is not a problem per se, but to scale application security, centralization and harmonization are needed. As illustrated in the following example CI/CD pipeline, you can have a lot of security control steps: secrets detection, SAST, artifact signing, access controls, but also container or Infrastructure as Code scanning (not shown in the example) (taken from the DevSecOps whitepaper) The idea is that you can progressively activate more and more control steps, fine-tune the existing ones and scale both horizontally and vertically your “AppSec infrastructure”, at one condition: you need to centralize metrics and controls in a stand-alone platform able to handle the load corresponding to your organization’s size. Security processes can only be automated when you have metrics and proper visibility across your development targets, otherwise, it is just more burden on the AppSec team's shoulders. In turn, metrics and visibility help drive change and provide the spark to ignite a cultural change within your organization. Security ownership shifts to every engineer involved in the delivery process, and each one is able to leverage its own deep (yet partial) knowledge of the system to support the effort. This unlocks a world of possibilities: most security flaws can be treated like regular tickets, rule sets can be optimized for each pipeline based on criticality, capabilities or regulatory compliance, and progress can be tracked (saved time, avoided vulnerabilities etc.). In simpler terms, security can finally move at the DevOps speed. Conclusion Security can’t scale if it’s siloed, and slowing down the development process is no longer an option in a world led by DevOps innovation. The design and implementation of security controls are bound to evolve. In this article, we’ve depicted a high-level overview of the steps to be considered to scale AppSec. This starts with establishing a set of security requirements that involve all the departments, in particular product-related ones. From there it becomes possible to design guardrails to make security truly accessible with a mix of hard and soft gates. By carefully selecting automated detection and remediation that provide visibility and control, you will be laying a solid foundation for a real model of shared responsibility for security. Finally, embedding checks in the CI/CD system can be rolled out in multiple phases to progressively scale your security operations. With automated feedback in place, you can start incrementally adjusting your policies. A centralized platform creates a common interface to facilitate the exchange between application security and developer teams while enforcing processes. It is a huge opportunity to automate and propagate best practices across teams. Developers are empowered to develop faster with more ownership. When security is rethought as a partnership between software-building stakeholders, a flywheel effect can take place: reduced friction leads to better communication and visibility, automating of more best practices, easing the work of each other while improving security with fewer defects. This is how application security will finally be able to scale through continuous improvement.

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文章来源: https://securityboulevard.com/2024/04/early-lessons-from-the-sisense-breach/
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