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Microsoft at Black Hat USA 2026: Defending trust in the age of AI and supply chain attacks | Microsoft Security Blog ACR Stealer: Two observed intrusion chains amid increased threat activity | Microsoft Security Blog Least privilege for AI agents: Identity, access, and tool binding | Microsoft Security Blog Unpacking the AsyncAPI npm supply chain compromise and import-time payload delivery | Microsoft Security Blog Turning threat intelligence into decisive action with Defender Experts | Microsoft Security Blog Defending SaaS-based applications against ShinyHunters OAuth abuse | Microsoft Security Blog Microsoft Entra ID security updates: Passkeys are the default authentication method in Entra ID | Microsoft Security Blog GigaWiper: Anatomy of a destructive backdoor assembled from multiple malware | Microsoft Security Blog Protecting Microsoft at AI speed: How SFI proactively hardens our cloud   | Microsoft Security Blog 5 insights from Frost & Sullivan’s 2025 Frost Radar™ for Cloud Security Posture Management | Microsoft Security Blog Improving security posture across the Microsoft partner ecosystem | Microsoft Security Blog Microsoft named a leader in the Frost Radar for cloud and application runtime security | Microsoft Security Blog Accelerating the quantum-safe timeline | Microsoft Security Blog ​​What’s new in Microsoft Security: June 2026 | Microsoft Security Blog Securing AI agents: When AI tools move from reading to acting | Microsoft Security Blog Chromium extension uses AI‑related branding to redirect browser search | Microsoft Security Blog Photo ZIP campaign targeting hospitality industry delivers Node.js implant for persistent access | Microsoft Security Blog Microsoft a Leader in The Forrester Wave™ for Endpoint Management Platforms | Microsoft Security Blog CNAPP evolution: How Microsoft aligns with leading cloud risk management platforms | Microsoft Security Blog StealC and Amadey: Breaking down infostealers and the cybercrime services that deliver them | Microsoft Security Blog Guarding AI memory | Microsoft Security Blog One intrusion, two cyberattackers: Uncovering parallel threat activity | Microsoft Security Blog AutoJack: How a single page can RCE the host running your AI agent  | Microsoft Security Blog New Forrester study shows customers who unified with Microsoft Security benefited from 124% ROI | Microsoft Security Blog From package to postinstall payload: Inside the Mastra npm supply chain compromise | Microsoft Security Blog Crypto Clipper uses Tor and worm-like propagation for persistence and control | Microsoft Security Blog Beyond the benchmark: Advancing security at AI speed  | Microsoft Security Blog ​​Forrester names Microsoft a Leader in the 2026 Extended Detection and Response Platforms Wave™ report | Microsoft Security Blog AI is accelerating cyberattacks—here’s how to stay ahead Microsoft Defender email security benchmarking: Key insights from one year of data | Microsoft Security Blog Reconstructing AI activity in investigations AI brands as bait: How threat actors are using the AI hype in social engineering Securing CI/CD in an agentic world: Claude Code Github action case Updating the taxonomy of failure modes in agentic AI systems: What a year of red teaming taught us Preinstall to persistence: Inside the Red Hat npm Miasma credential-stealing campaign Turn specs into evals for any agent with ASSERT Microsoft Build 2026: Securing code, agents, and models across the development lifecycle Malicious npm packages abuse dependency confusion to profile developer environments Microsoft is named a Leader in the 2026 Gartner® Magic Quadrant™ for Endpoint Protection Typosquatted npm packages used to steal cloud and CI/CD secrets The Gentlemen ransomware: Dissecting a self-propagating Go encryptor From poisoned search results to GPU mining: A cryptojacking campaign abusing ScreenConnect and Microsoft .NET utilities Microsoft recognized as a Leader in The Forrester Wave™ for Workforce Identity Security Platforms From edge appliance to enterprise compromise: Multi-stage Linux intrusion via F5 and Confluence Microsoft Security success stories: How St. Luke’s and ManpowerGroup are securing AI foundations What’s new in Microsoft Security: May 2026 Mini Shai Hulud: Compromised @antv npm packages enable CI/CD credential theft Securing the gaming culture of cultures Introducing RAMPART and Clarity: Open source tools to bring safety into Agent development workflow Exposing Fox Tempest: A malware-signing service operation How Storm-2949 turned a compromised identity into a cloud-wide breach How to better protect your growing business in an AI-powered world Defense in depth for autonomous AI agents When configuration becomes a vulnerability: Exploitable misconfigurations in AI apps Accelerating detection engineering using AI-assisted synthetic attack logs generation Defending consumer web properties against modern DDoS attacks Undermining the trust boundary: Investigating a stealthy intrusion through third-party compromise Active attack: Dirty Frag Linux vulnerability expands post-compromise risk When prompts become shells: RCE vulnerabilities in AI agent frameworks World Passkey Day: Advancing passwordless authentication ​​Microsoft named an overall leader in KuppingerCole Analyst’s 2026 Emerging AI Security Operations Center (SOC) report ​​ ClickFix campaign uses fake macOS utilities lures to deliver infostealers Breaking the code: Multi-stage ‘code of conduct’ phishing campaign leads to AiTM token compromise CVE-2026-31431: Copy Fail vulnerability enables Linux root privilege escalation across cloud environments Microsoft Agent 365, now generally available, expands capabilities and integrations What’s new, updated, or recently released in Microsoft Security Email threat landscape: Q1 2026 trends and insights 8 best practices for CISOs conducting risk reviews Simplifying AWS defense with Microsoft Sentinel UEBA AI-powered defense for an AI-accelerated threat landscape Detection strategies across cloud and identities against infiltrating IT workers Making opportunistic cyberattacks harder by design Cross‑tenant helpdesk impersonation to data exfiltration: A human-operated intrusion playbook Containing a domain compromise: How predictive shielding shut down lateral movement Building your cryptographic inventory: A customer strategy for cryptographic posture management Dissecting Sapphire Sleet’s macOS intrusion from lure to compromise Incident response for AI: Same fire, different fuel The agentic SOC—Rethinking SecOps for the next decade Investigating Storm-2755: “Payroll pirate” attacks targeting Canadian employees Intent redirection vulnerability in third-party SDK exposed millions of Android wallets to potential risk Inside an AI‑enabled device code phishing campaign Storm-1175 focuses gaze on vulnerable web-facing assets in high-tempo Medusa ransomware operations Threat actor abuse of AI accelerates from tool to cyberattack surface Cookie-controlled PHP webshells: A stealthy tradecraft in Linux hosting environments Mitigating the Axios npm supply chain compromise Critical Infrastructure at Risk | Security Insider
Securing our future: July 2026 progress report on Microsoft's Secure Future Initiative | Microsoft Security Blog
Salim Chawro · 2026-07-11 · via Microsoft Security Blog

Security is never finished. That conviction is where the Secure Future Initiative (SFI) started two years ago and continues to guide us today. AI is reshaping cybersecurity. Cyberattackers can discover vulnerabilities, chain attack paths, and scale exploitation faster than manual approaches allow. Defenders can use the same advances to identify risk, strengthen protections, and accelerate response. As the threat landscape evolves, security must evolve with it.

This latest SFI progress report shows how Microsoft is adapting to that reality: strengthening security foundations for an AI-accelerated cyberthreat landscape, applying AI to improve security outcomes at scale, and preparing for future challenges such as scalable quantum computing.

This report organizes our progress into three outcome-driven themes—secure foundations, proactive defense, and future-ready security—and shares lessons learned, practical guidance, and deeper insights across the culture, governance, principles, and engineering pillars that underpin security at Microsoft.

Secure foundations

The most consequential security failures rarely come from a single missing control. They come from environments where identity gaps, unmanaged assets, and inconsistent configurations sit side by side, creating composite attack paths that determined threat actors can chain together. SFI addresses this systemically, strengthening security across our environment. The results show the progress:

  • Phishing-resistant multifactor authentication now protects 99.97% of user/device pairs at Microsoft.
  • More than 732,000 resources have had public access revoked, with network isolation scaling across 1 million resources.
  • 1.4 million unused apps were decommissioned and cross-boundary credential isolation reached 98.7%.
  • Engineering defaults now prevent 83% of pipelines from accessing unapproved package endpoints.

These controls form reinforcing layers: identity feeds access governance, access governance feeds segmentation, segmentation contains blast radius, and engineering defaults reduce what enters production in the first place. One of the lessons we have learned is that foundations are durable only when they’re continuously validated, not periodically audited.

Proactive defense

Secure foundations reduce the attack surface. Proactive defense builds on that foundation to find and fix weaknesses quickly. Traditional practices like code review and penetration testing remain essential. The difference now is that frontier AI can discover vulnerabilities and chain exploit paths faster than manual review can keep up. That’s a threat and, when used well, an advantage. We’ve leaned into that advantage to find real risk earlier and close it before a cyberattacker can act.

  • We built a multi-agent AI system that delivers proactive assessment of a cloud service’s source code, identity configurations, network topology, and runtime state to surface composite vulnerabilities that a single-layer review could not catch. More than 90% of findings confirmed by our security engineers, enabling proactive actions to improve security posture.
  • This system builds on other tools in our security portfolio—such as the Microsoft Security multi-model agentic scanning system (codename MDASH), which scans source code to identify, validate, and prioritize vulnerabilities at scale—and adds configuration, identity, network, and runtime context to comprehensively assess the service.
  • More than 100 new detections were added this year (more than 350 total), shifting from signature-based to behavior- and baseline-driven detection.
  • More than 550,000 critical and high-risk open-source vulnerabilities were remediated, with about 3 million container vulnerabilities patched per month through automation.

Future-ready security

Some risks have not fully arrived yet, but waiting for them is not an option. The most urgent example is the transition to post-quantum cryptography. The threat is already here in the form of “harvest now, decrypt later”: data encrypted today could be captured and decrypted once quantum capability matures.

  • We are accelerating the Microsoft Quantum Safe Program (QSP) timeline, with the goal of transitioning to post-quantum cryptography (PQC) in critical products and services by 2029.          
  • PQC is now an SFI-measured engineering requirement, with workstreams advancing across network traffic, data-at-rest protection, and trust chain modernization.
  • Quantum-safe algorithms (ML-KEM, ML-DSA) are available today across major platforms.
  • Read more in the recent blog: Accelerating quantum-safe readiness.

Governance, culture, and principles

Foundational progress like this is only possible because of the people committed to making it possible. Security is a core responsibility for every employee at Microsoft: mandatory Trust Code training was completed by more than 99% of full-time employees. Governance is what makes it scale, with accountability driven through our Deputy Chief Information Security Officer (CISO) structure and a centralized risk register. And our principles—secure by design, secure by default, secure in operations—are what turn intent into product, like Microsoft 365 Baseline Security Mode. Tools alone don’t create durable security; culture, accountability, and secure defaults do.

What you can do today

Throughout the report, we share actionable guidance for organizations at any stage of their security journey. A few starting points:

  • Enforce phishing-resistant multifactor authentication and eliminate legacy authentication protocols.
  • Inventory every tenant and classify it. Apply secure-by-default provisioning with drift detection.
  • Evaluate how identity, code, configuration, and network relationships interact in production. Prioritize composite attack paths over isolated findings.
  • Inventory your cryptographic dependencies now and establish transition plans for post-quantum readiness.
  • Enable Baseline Security Mode in Microsoft 365 for secure-by-default configuration at no additional cost.

Read the full SFI report, including detailed pillar-level progress and additional customer guidance.

Each hardening action changes the cyberattacker’s approach. The compounding effect of SFI is that attackers face a shrinking set of viable paths, while defenders gain better telemetry, stronger defaults, and sharper prioritization for the paths that remain.

Security is a team sport. We are grateful for the partnership of our customers, security researchers, and the broader industry as we work together to make the world a safer place for all.

Learn more

To learn more about Microsoft Security solutions, visit our website. Bookmark the Security blog to keep up with our expert coverage on security matters. Also, follow us on LinkedIn (Microsoft Security) and X (@MSFTSecurity) for the latest news and updates on cybersecurity.