AWS has patched the vulnerability and published its own advisory to inform customers about the potential impact.
The post Amazon Q Flaw Enabled Cloud Credential Theft via Malicious Repositories appeared first on SecurityWeek.
Modern attack surfaces don’t sit still.
Cloud expansion, SaaS sprawl, identity complexity, and shadow IT are continuously reshaping organizational risk. For security leaders, visibility isn’t the challenge anymore, but actually operationalizing that visibility is.
Surface Command was built to unify asset and identity intelligence across your external attack surface. But translating that intelligence into executive-ready dashboards or operational reporting has often required knowledge of Cypher queries.
Today, that changes: We’re introducing filter-based dashboard widgets in Surface Command, enabling teams to build meaningful attack surface management (ASM) dashboards in minutes, without writing a single query.
And for CISOs focused on advancing continuous threat exposure management (CTEM), this is more than a usability enhancement. It’s an operational accelerator.
Security teams already use saved asset and identity filters to answer critical questions:
Which internet-facing assets are high risk?
Where do privileged identities intersect with exploitable exposures?
Which business units own unmanaged cloud infrastructure?
What third-party SaaS applications expand our attack surface?
Now, those same saved filters can be converted directly into live dashboard widgets. If your team can build a filter table, they can now build a dashboard.
There’s no need to understand query syntax or rely on specialized expertise for common reporting needs. With just a few clicks, exposure views become shareable, persistent dashboards built on the same unified data model that powers Surface Command.
For many organizations, the barrier to effective exposure management isn’t visibility, it’s friction. When dashboard creation requires query expertise, reporting slows down, operational teams depend on a small group of power users, executive visibility lags behind exposure reality, and CTEM initiatives stall under complexity.
Filter-based widgets remove that bottleneck. Security teams can now spin up exposure dashboards in minutes, empower analysts and vulnerability teams to self-serve, deliver consistent reporting to leadership, and standardize exposure views across business units.
This lowers the barrier to building and maintaining exposure intelligence across the organization, and that matters when “continuous” is the goal.
Beyond a framework, CTEM is a discipline. One that treats exposure management as an ongoing cycle, not a point-in-time project. CTEM is commonly organized into five continuous steps:
Scope – Define what you’re focusing on (systems, business services, exposure themes, time horizons).
Discover – Identify the assets, identities, and exposures within scope.
Prioritize – Determine what matters most based on risk and impact.
Validate – Confirm exploitability and real-world likelihood.
Mobilize – Drive remediation and measure progress.
The challenge isn’t describing these steps. It’s making them repeatable in day-to-day operations, and that’s where filter-based dashboard widgets help.
CTEM often succeeds or fails at the first step: scope. If “scope” lives in a document, teams interpret it differently. If it lives on the platform, it becomes operational.
Saved filters are an effective way to define scope in a way teams can actually use. Let’s take a look at some examples:
“Internet-facing assets owned by customer-facing business units”
“Privileged identities with access to production”
“Externally exposed services supporting payment workflows”
“Cloud assets without an identified owner”
With filter-based widgets, you can turn those scoped views into dashboards that make CTEM focus areas visible and persistent. This helps teams stay aligned on what you’re measuring and why.
Once scope is defined, CTEM demands continuous discovery and prioritization. Filter-based widgets support that by making key exposure views always available, such as:
Newly discovered external assets in a critical business unit
High-risk exposures on internet-facing systems
Identity-driven exposure hotspots (where access and exposure intersect)
Business-unit risk breakdowns for ownership and accountability
Instead of rebuilding reports each cycle, teams can use dashboards to maintain ongoing awareness of what has changed.
Validation and mobilization are where CTEM becomes measurable. While advanced workflows still benefit from deeper investigation and custom analysis, filter-based dashboards help teams maintain consistent operational pressure: Are the highest priority exposures shrinking week over week? Are the same teams repeatedly accumulating unmanaged assets? Are privileged identity risks trending in the right direction?
Dashboards don’t replace validation, but they make it easier to target validation where it matters, and to keep remediation efforts aligned to the scoped CTEM goals.
These filter-based widgets aren’t layered on top of a separate reporting engine. They’re instead powered directly by the Command Platform’s unified asset and identity graph, which is the same continuously updated data model that drives Surface Command.
That means widgets reflect real-time exposure state, asset and identity relationships stay connected, context holds across domains, and dashboards scale as your attack surface evolves.
For CISOs, this is what turns reporting into decision support: consistent data, consistent definitions, and visibility that doesn’t lag behind reality.
Most reporting can now be built from easy-to-use filter tables, without the learning curve associated with Cypher.
For advanced correlation, custom logic, and complex investigations, teams can still leverage custom queries. The result is balance: Accessibility for most users and flexibility for advanced practitioners – all via one unified platform.
Surface Command was built to give organizations a unified view of their external attack surfaces across assets, identities, and exposures.
With filter-based dashboard widgets, that intelligence becomes easier to operationalize, easier to share, and easier to scale, especially for CTEM programs that rely on repeatability.
Because continuous threat exposure management shouldn’t depend on who knows how to write a query. It should be built into the way your platform works.
Cloud environments have changed how security teams detect and respond to threats. Signals come from more places, identities are harder to track, and attacks rarely stay within a single system. For many teams, the challenge is no longer visibility. It is having the risk context to understand what matters and act on it quickly. This shift is reflected in the conversations shaping this year’s Rapid7 Global Cybersecurity Summit.
Taking place May 12-13, the summit explores how detection and response are evolving across cloud, identity, and endpoint environments. The focus is practical: how attacks actually unfold, how teams respond under pressure, and how detection strategies need to adapt.
One of the clearest themes across the agenda is that traditional detection models are struggling to keep pace with attackers. Environments are more dynamic, and attackers are more targeted. Catching everything is no longer realistic, and in many cases it is not useful.
Sessions like The New Rules of Detection Engineering will examine this shift in detail. The focus moves away from volume and toward precision. It will ask questions like: What makes a detection meaningful? How should teams prioritize signals? And how can detection strategies support real outcomes rather than just generate alerts? This is especially important in cloud environments, where context changes quickly and signals are often incomplete.
To improve detection, teams need to understand how attacks behave in practice. Several sessions across the summit focus on this directly.
The Reality of Running a SOC in 2026 will explore how modern attacks begin — from identity misuse to cloud misconfigurations— and how they evolve over time. Rather than following a predictable path, attacks move across systems, taking advantage of gaps in visibility and delayed decisions.
This theme continues in sessions like Inside the Modern SOC, where attendees follow a real investigation from first alert to outcome. These walkthroughs show how signals are correlated across environments and how decisions are made when time and clarity are limited.
Cloud security also requires a closer connection between exposure and detection. In many cases, incidents begin long before an alert is triggered.
Sessions such as From Cloud Exposure to Runtime Attack explore how misconfigurations, permissions, and overlooked risks lead to active threats. The focus is on how teams connect exposure insights with runtime behavior to improve prioritization and respond earlier in the attack lifecycle.
This is a practical shift. Detection is no longer a separate function but part of a broader process that starts with understanding exposure and continues through to response.
Across these sessions, a consistent message emerges: Detection strategies need to be grounded in how environments actually behave, not how they are expected to behave.
This means focusing on signal quality rather than volume, connecting data across cloud, identity, and endpoint, and building workflows that support faster decisions. It also means accepting that not all alerts have equal weight, and that prioritization is a core part of modern detection.
Cloud detection is just one part of a broader shift happening across the summit. Sessions on MDR, AI, and exposure management all connect back to the same idea. Security operations must move earlier, reduce noise, and act with greater confidence.
If you are rethinking how your team detects and responds to threats in cloud and hybrid environments, this is where those conversations come together.
Join us May 12–13 and see how security teams are evolving their detection strategies for 2026.
This overview of the basics of Cloud Security includes some tips and resources for getting started in defending the cloud.
The post Cloud Security: Tips and Resources for Securing the Cloud appeared first on Black Hills Information Security, Inc..
If you're a security leader operating in Germany, Austria, or Switzerland, you already know that compliance isn't a checkbox. It's a competitive differentiator. Rapid7 has completed BSI C5 Type 2 attestation for the Rapid7 Command Platform, including Threat Command, and it's a milestone worth unpacking.
This isn't just a badge on a webpage. It's proof that our security controls work, not just on paper, but in practice, over time.
The Cloud Computing Compliance Criteria Catalogue (C5) was developed by Germany's Federal Office for Information Security (BSI). It sets some of the most rigorous cloud security standards in the world, covering everything from data protection to operational transparency.
A Type 2 attestation is the gold standard within that framework. Unlike a point-in-time audit, Type 2 validates that security controls aren't just well-designed, but that they're actively working consistently over a sustained period. It's the difference between a security promise and a security proof.
For organizations in the DACH region, C5 is more than a nice-to-have. It's a procurement requirement for German federal agencies, critical infrastructure operators, healthcare institutions, and financial services firms. If you're operating in any of these sectors, your cloud providers need to meet this bar. Rapid7 now does.
Whether you're evaluating security vendors, managing compliance obligations, or looking to strengthen your organization's risk posture, the question is the same: How do you know your cloud security provider actually does what it says?
BSI C5 Type 2 attestation answers that question. It's independent, rigorous, and sustained over time. While rooted in German regulatory requirements, C5 is increasingly recognized as a benchmark for secure cloud operations across Europe. It's one of the clearest signals that a cloud provider has the operational maturity to handle sensitive environments.
The Rapid7 Command Platform unifies exposure management with detection and response, giving security teams clear visibility across their attack surface. Threat Command extends that protection further, identifying and helping remediate threats across the clear, deep, and dark web. Both are now independently validated against one of the world's toughest cloud security frameworks.
Trusting a security vendor shouldn't require a leap of faith. Independent validation exists so you have the evidence to make that call with confidence. This attestation reflects our continued investment in meeting the highest security standards for customers across Germany and the wider European market. Rapid7 has achieved a milestone that speaks directly to the conversations had every day with public sector and enterprise organizations who need more than a promise.
They need proof that a security provider's controls have been tested, verified, and proven to hold up over time. That's the kind of assurance that matters when the stakes are high.
Ready to see the Command Platform in action? Visit Rapid7.com for a free trial.
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