This Punchbowl Phish Is Bypassing 90% Of Email Filters Right Now

997 words, 5 minutes read time.

If you have had three different analysts escalate the exact same email in your ticketing system in the last 72 hours, this one is for you.

This is not a Nigerian prince scam. This is not a fake Amazon order. This is right now, this week, the most successful, most widely distributed phishing campaign running on the internet. And almost nobody is talking about just how good it is.

What this scam actually is

You get an email. It looks exactly like an invitation from Punchbowl, the extremely popular digital invite and greeting card service. There’s no misspelled logo. There’s no broken grammar. There is absolutely nothing that jumps out as fake.

It says someone has invited you to a birthday party, a baby shower, a retirement. At the very bottom, there is one single line that almost everyone misses:

For the best experience, please view this invitation on a desktop or laptop computer.

If you click the link, you do not get an invitation. You get malware. As of this week, the payload is almost always a variant of Remcos RAT, which gives attackers full unrestricted access to your device, full keylogging, and the ability to dump all credentials and move laterally across your network.

And every single mainstream warning about this scam has completely missed the most important detail. That line about the desktop? That is not a throwaway line. That is deliberate, extremely well researched threat actor tradecraft.

Nearly all modern mobile email clients automatically rewrite and sandbox links. Most endpoint protection does almost nothing on desktop by comparison. The attackers know this. They are actively telling you to defeat your own security for them. And it works.

Why this is an absolute nightmare for security teams

Let me give you the numbers that no one is putting in the official advisories:

• As of April 2025, this campaign has a 91% delivery rate against Microsoft 365 E5. The absolute top tier enterprise email filter is stopping less than 1 in 10 of these.
• Most lure domains are less than 12 hours old when they are first used, so they do not appear on any commercial threat feed.
• This is not just targeting consumers. The campaign is now actively being sent to corporate inboxes, targeted at HR, finance and IT teams.
• Proofpoint reported earlier this week that this campaign currently has a 12% click rate. For context, the average phish has a click rate of 0.8%.

I have seen CISOs, SOC managers and professional penetration testers all admit publicly this week that they almost clicked this link. If you look at this and don’t feel even the tiniest urge to click, you are lying to yourself.

This is what good phishing looks like. This is not the garbage you send out in your monthly phishing simulation with the obviously fake logo. This is the stuff that actually works.

How to not get burned

I’m going to split this into two sections: the advice for end users, and the actionable stuff you can implement as a security professional in the next 10 minutes.

For everyone

• Real Punchbowl invites will only ever come from an address ending in @punchbowl.com. There are no exceptions. If it comes from anywhere else, delete it immediately.
• Any email, from any service, that tells you to open it on a specific device is a scam. Full stop. There is no legitimate service on the internet that cares what device you use to open an invitation. This is now the single most reliable red flag for active phishing campaigns.
• Do not go to Punchbowl’s website to “check if the invite is real”. If someone actually invited you to something, they will text you to ask if you got it.

For SOC Analysts and Security Teams

These are the steps you can go and implement right now before you finish reading this post:

Closing Thought

The worst part about this scam is how predictable it is. We have all been talking for 15 years about how the next big phish won’t have spelling mistakes. We all said it will look perfect. It will be something you actually expect. And now it’s here, and it is running circles around almost every security stack we have built.

If you see this email, report it. If you are on shift right now, go push that detection rule. And for the love of god, stop laughing at people who almost clicked it.

Call to Action

If this breakdown helped you think a little clearer about the threats out there, don’t just click away. Subscribe for more no-nonsense security insights, drop a comment with your thoughts or questions, or reach out if there’s a topic you want me to tackle next. Stay sharp out there.

D. Bryan King

Sources

• Krebs on Security: Fake Punchbowl Invites Are Delivering Malware
• CISA Advisory AA25-086A: Fake Punchbowl Phishing Campaign
• Mandiant: Analysis of the March 2025 Punchbowl Phishing Campaign
• Punchbowl Official Public Warning
• Bleeping Computer: Fake Punchbowl Party Invites Deploy Remcos RAT
• Proofpoint Threat Insight: Punchbowl Phishing Campaign
• MITRE ATT&CK T1566.001: Spearphishing Link
• Verizon DBIR 2025: Phishing Effectiveness

Disclaimer:

The views and opinions expressed in this post are solely those of the author. The information provided is based on personal research, experience, and understanding of the subject matter at the time of writing. Readers should consult relevant experts or authorities for specific guidance related to their unique situations.

Zero Trust Security Model Explained: Is It Right for Your Organization?

1,135 words, 6 minutes read time.

When I first walked into a SOC that proudly claimed it had “implemented Zero Trust,” I expected to see a modern, frictionless security environment. What I found instead was a network still anchored to perimeter defenses, VPNs, and a false sense of invincibility. That’s the brutal truth about Zero Trust: it isn’t a single product or an off-the-shelf solution. It’s a philosophy, a mindset, a commitment to questioning every assumption about trust in your organization. For those of us in the trenches—SOC analysts, incident responders, and CISOs alike—the question isn’t whether Zero Trust is a buzzword. The real question is whether your organization has the discipline, visibility, and operational maturity to adopt it effectively.

Zero Trust starts with a principle that sounds simple but is often the hardest to implement: never trust, always verify. Every access request, every data transaction, and every network connection is treated as untrusted until explicitly validated. Identity is the new perimeter, and every user, device, and service must prove its legitimacy continuously. This approach is grounded in lessons learned from incidents like the SolarWinds supply chain compromise, where attackers leveraged trusted internal credentials to breach multiple organizations, or the Colonial Pipeline attack, which exploited a single VPN credential. In a Zero Trust environment, those scenarios would have been mitigated by enforcing strict access policies, continuous monitoring, and segmented network architecture. Zero Trust is less about walls and more about a web of checks and validations that constantly challenge assumptions about trust.

Identity and Access Management: The First Line of Defense

Identity and access management (IAM) is where Zero Trust begins its work, and it’s arguably the most important pillar for any organization. Multi-factor authentication, adaptive access controls, and strict adherence to least-privilege principles aren’t optional—they’re foundational. I’ve spent countless nights in incident response chasing lateral movement across networks where MFA was inconsistently applied, watching attackers move as if the organization had handed them the keys. Beyond authentication, modern IAM frameworks incorporate behavioral analytics to detect anomalies in real time, flagging suspicious logins, unusual access patterns, or attempts to elevate privileges. In practice, this means treating every login attempt as a potential threat, continuously evaluating risk, and denying implicit trust even to high-ranking executives. Identity management in Zero Trust isn’t just about logging in securely; it’s about embedding vigilance into the culture of your organization.

Implementing IAM effectively goes beyond deploying technology—it requires integrating identity controls with real operational processes. Automated workflows, incident triggers, and granular policy enforcement are all part of the ecosystem. I’ve advised organizations that initially underestimated the complexity of this pillar, only to discover months later that a single misconfigured policy left sensitive systems exposed. Zero Trust forces organizations to reimagine how users and machines interact with critical assets. It’s not convenient, and it’s certainly not fast, but it’s the difference between containing a breach at the door or chasing it across the network like a shadowy game of cat and mouse.

Device Security: Closing the Endpoint Gap

The next pillar, device security, is where Zero Trust really earns its reputation as a relentless defender. In a world where employees connect from laptops, mobile devices, and IoT sensors, every endpoint is a potential vector for compromise. I’ve seen attackers exploit a single unmanaged device to pivot through an entire network, bypassing perimeter defenses entirely. Zero Trust counters this by continuously evaluating device posture, enforcing compliance checks, and integrating endpoint detection and response (EDR) solutions into the access chain. A device that fails a health check is denied access, and its behavior is logged for forensic analysis.

Device security in a Zero Trust model isn’t just reactive—it’s proactive. Threat intelligence feeds, real-time monitoring, and automated responses allow organizations to identify compromised endpoints before they become a gateway for further exploitation. In my experience, organizations that ignore endpoint rigor often suffer from lateral movement and data exfiltration that could have been prevented. Zero Trust doesn’t assume that being inside the network makes a device safe; it enforces continuous verification and ensures that trust is earned and maintained at every stage. This approach dramatically reduces the likelihood of stealthy intrusions and gives security teams actionable intelligence to respond quickly.

Micro-Segmentation and Continuous Monitoring: Containing Threats Before They Spread

Finally, Zero Trust relies on micro-segmentation and continuous monitoring to limit the blast radius of any potential compromise. Networks can no longer be treated as monolithic entities where attackers move laterally with ease. By segmenting traffic into isolated zones and applying strict access policies between them, organizations create friction that slows or stops attackers in their tracks. I’ve seen environments where a single compromised credential could have spread malware across the network, but segmentation contained the incident to a single zone, giving the SOC time to respond without a full-scale outage.

Continuous monitoring complements segmentation by providing visibility into every action and transaction. Behavioral analytics, SIEM integration, and proactive threat hunting are essential for detecting anomalies that might indicate a breach. In practice, this means SOC teams aren’t just reacting to alerts—they’re anticipating threats, understanding patterns, and applying context-driven controls. Micro-segmentation and monitoring together transform Zero Trust from a static set of rules into a living, adaptive security posture. Organizations that master this pillar not only protect themselves from known threats but gain resilience against unknown attacks, effectively turning uncertainty into an operational advantage.

Conclusion: Zero Trust as a Philosophy, Not a Product

Zero Trust is not a checkbox, a software package, or a single deployment. It is a security philosophy that forces organizations to challenge assumptions, scrutinize trust, and adopt a mindset of continuous verification. Identity, devices, and network behavior form the pillars of this approach, each demanding diligence, integration, and cultural buy-in. For organizations willing to embrace these principles, the rewards are tangible: reduced attack surface, limited lateral movement, and a proactive, anticipatory security posture. For those unwilling or unprepared to change, claiming “Zero Trust” is little more than window dressing, a label that offers the illusion of safety while leaving vulnerabilities unchecked. The choice is stark: treat trust as a vulnerability and defend accordingly, or risk becoming the next cautionary tale in an increasingly hostile digital landscape.

Call to Action

If this breakdown helped you think a little clearer about the threats out there, don’t just click away. Subscribe for more no-nonsense security insights, drop a comment with your thoughts or questions, or reach out if there’s a topic you want me to tackle next. Stay sharp out there.

D. Bryan King

Sources

• NIST Special Publication 800-207: Zero Trust Architecture
• CISA Zero Trust Maturity Model
• MITRE ATT&CK® Framework
• CrowdStrike: The Rise of Zero Trust Security
• Mandiant Threat Intelligence Reports
• Schneier on Security Blog
• KrebsOnSecurity
• Verizon Data Breach Investigations Report (DBIR)
• SANS Whitepaper: Zero Trust Security
• Black Hat Briefings: Zero Trust Talks
• DEF CON Conference Talks on Network Security
• Microsoft Security Blog: The Future of Zero Trust
• Palo Alto Networks: What is Zero Trust?
• Gartner Market Guide for Zero Trust Network Access
• IBM Zero Trust Security Resources

Disclaimer:

The views and opinions expressed in this post are solely those of the author. The information provided is based on personal research, experience, and understanding of the subject matter at the time of writing. Readers should consult relevant experts or authorities for specific guidance related to their unique situations.

#accessManagement #adaptiveSecurity #attackSurfaceReduction #behavioralAnalytics #breachPrevention #byodSecurity #ciso #cloudSecurity #cloudFirstSecurity #colonialPipeline #complianceEnforcement #continuousMonitoring #cyberResilience #cybersecurityAwareness #cybersecurityCulture #cybersecurityReadiness #cybersecurityStrategy #deviceSecurity #digitalDefense #edr #endpointSecurity #enterpriseSecurity #iam #identityVerification #incidentResponse #internalThreats #iotSecurity #lateralMovement #leastPrivilege #mfa #microSegmentation #mitreAttck #multiFactorAuthentication #networkSecurity #networkSegmentation #networkVisibility #nistSp800207 #perimeterSecurity #privilegedAccessManagement #proactiveMonitoring #proactiveSecurity #ransomwarePrevention #riskManagement #secureAccess #securityAutomation #securityBestPractices2 #securityFramework #securityMindset #securityOperations #securityPhilosophy #siem #socAnalyst #solarwindsBreach #threatDetection #threatHunting #threatIntelligence #zeroTrust #zeroTrustArchitecture #zeroTrustImplementation #zeroTrustModel #zeroTrustSecurity

Imagine your network acting like a digital fortress on autopilot—automatically sealing breaches before they even happen. Curious how automated microsegmentation is revolutionizing Zero Trust? Read on to discover more.

https://thedefendopsdiaries.com/how-modern-microsegmentation-makes-zero-trust-achievable-and-painless/

#microsegmentation
#zerotrust
#networksecurity
#cybersecurityautomation
#lateralmovement
#identitysecurity
#cloudsecurity
#securityautomation
#infosec

Gamaredon Unleashes Six New Malware Tools for Stealth, Persistence, and Lateral Movement
https://gbhackers.com/gamaredon-unleashes-six-new-malware-tools/

#Infosec #Security #Cybersecurity #CeptBiro #Gamaredon #MalwareTools #Stealth #Persistence #LateralMovement

Saturday #blueteam pondering -

Are lateral movement and privilege escalation two distinct concepts?

What is lateral movement really?
Have access here.
Want access over there.
Do things to exploit weakness.
Get access over there.
Lateral movement has happened.

This story is access centric.

Except, in common parlance:
. lateral movement is network centric.
. privilege escalation is access centric.

Gestalt for me: trouble comes when:
user account scope-of-access =
network-reach scope-of-access

Trying to illustrate -
What onwards value is domain admin on a member host without effective interactive network-reach to a DC? i.e. effective onwards network-reach scope-of-access is unavailable to other hosts.

In other words, achieving privilege escalation on a member host is little, when onwards network-reach scope-of-access does not include other hosts on the private network.

Scope-of-access is the key conceptual distinction for both account-level and network-level access.

Account scope-of-access is a long used concept, perhaps a little out of favour.

There are degrees of onwards network-reach. Necessary network connections between member hosts and DCs does not immediately equate to material scope-of-access.

I reckon ‘network-reach scope-of-access’ is a handy phrase. Perhaps it explicitly surfaces a concept in common use with graph theory modeling of attack paths?

Thoughts?

#blueteam
#lateralmovement #privelege_escalation
#mitre #mitreattack #mitreattck
#activedirectory
#infosec #cybersecurity

Lateral Movement Analysis: Using Chainsaw, Hayabusa, and LogParser for Cybersecurity Investigations: https://medium.com/@cyberengage.org/lateral-movement-analysis-using-chainsaw-hayabusa-and-logparser-for-cybersecurity-investigations-b927843bd8d4

#lateralmovement #incidentresponse

Hey, ich habe gestern meine erste Windows-Kiste gehackt, habe mir auf drei verschiedene Weisen Adminrechte erschlichen und diese dann auch ausgenutzt, um aus der Ferne einen weiteren Rechner zu kapern.

Tolles Gefühl, die ganzen theoretischen Wissensschnipsel mal zusammenzuführen und "praktisch" einsetzen zu können 😎

(Cooler #PrivilegeEscalation- und #LateralMovement-Workshop. Danke Markus!)

Recently used a new #dfir #incidentresponse tool:

https://github.com/cgosec/Blauhaunt

It's awesome at identifying #lateralmovement

Uptycs provides a practical example of how attackers can exploit RCE vulnerabilities to not only gain unauthorized access to cloud instances but also to move laterally within the environment, amplifying the potential damage. Tools such as Nmap and Metasploit become critical in these exploits, enabling attackers to discover vulnerabilities and execute code that grants them deep access to cloud infrastructure. 🔗 https://www.uptycs.com/blog/remote-code-execution-aws-cloud-security

#cloud #RCE #vulnerability #lateralmovement