@hoaquynhtruog_shinebrows:

Phun mày đẹp quận 12
Phun mày đẹp quận 12
Open In TikTok:
Region: VN
Sunday 17 May 2026 13:42:39 GMT
250
16
0
3

Music

Download

Comments

There are no more comments for this video.
To see more videos from user @hoaquynhtruog_shinebrows, please go to the Tikwm homepage.

Other Videos

Why Attackers *Always Win* When Defenders Don’t Map It In every major breach you’ve ever studied, one truth repeats itself: 👉 *Attackers follow a structured process. Defenders usually don’t.* And that single gap is why intrusions succeed. In 2025, threat actors aren’t “getting lucky” — they’re executing an organized, repeatable pipeline called The Cyber Kill Chain, while most organizations still rely on reactive security and incomplete visibility. Today, let’s break it down — not as theory, but as a practical framework for stopping attacks long before they succeed.    🧵 1. Reconnaissance — The Silent Stalker Phase Attackers start by learning everything about the target: open ports, exposed services, employees, weak technologies, unpatched systems. Defender actions: * Attack surface monitoring * LinkedIn/OSINT footprint minimization * Continuous external scanning If you don’t know what the attacker sees, you're already losing.    🧵 2. Weaponization — Turning Intel Into Ammunition Here, attackers build malware, payloads, exploits, and phishing lures tailored to your environment. Defender actions: * Threat intelligence integration * Understanding common exploit chains * Strengthening email + endpoint detection Weaponization is where attacks become *targeted*.    🧵 3. Delivery — Getting the Payload Into Your Network Phishing, malicious attachments, fake login portals, USB drops, drive-by downloads. Defender actions: * Email filtering * Web proxy defenses * User training based on *real* adversary techniques If it reaches the user, it’s already too late.  🧵 4. Exploitation — Breaking the First Barrier Attackers exploit a vulnerability to run code. Defender actions: * Patch cadence * Vulnerability prioritization (CVSS + EPSS) * Hardening configs, MFA everywhere One unpatched service = full compromise.    🧵 5. Installation — Establishing Persistence Backdoors, trojans, registry changes, scheduled tasks. Defender actions: * Endpoint monitoring * Behavioral anomaly detection * Blocking unsigned or untrusted binaries Persistence means the attacker now has a *home* inside your network.    🧵 6. Command & Control — Talking to the Attacker The infected system phones back to a C2 server for instructions. Defender actions: * DNS monitoring * Blocking known malicious infrastructure * Detecting beaconing patterns No C2 = no remote control.    🧵 7. Actions on Objectives — The Payoff Data exfiltration, privilege escalation, encryption (ransomware), sabotage, or lateral movement. Defender actions: * Least privilege * Network segmentation * DLP and SOC visibility If an attacker reaches this stage, damage is almost always guaranteed.  ⚠️ Why Defenders Lose When They Ignore the Kill Chain Most teams monitor only the *final* stages (detection, exfiltration, ransomware). But attack prevention happens in the *early* stages — recon, delivery, exploitation. When defenders don’t map the kill chain: ❌ They don’t know where their controls fail ❌ They respond too late ❌ They can’t predict attacker next steps ❌ They build security around symptoms, not the attack lifecycle Attackers win because they follow a roadmap. Defenders lose because they don’t.   ✅ The Fix: Operationalize the Kill Chain If you want to stop breaches, transform it from a “concept” into a daily operational model: ✔ Map controls to each stage ✔ Build detection use cases tied to TTPs ✔ Match SOC alerts to kill-chain stages ✔ Conduct purple team exercises ✔ Reduce dwell time at every phase A defender who understands the kill chain becomes *predictive*, not reactive.   🔒 Final Thought Attackers don’t improvise — they execute. The organizations that win are the ones that do the same. Know the chain. Map it. Defend early. Break the attack before it begins.
Why Attackers *Always Win* When Defenders Don’t Map It In every major breach you’ve ever studied, one truth repeats itself: 👉 *Attackers follow a structured process. Defenders usually don’t.* And that single gap is why intrusions succeed. In 2025, threat actors aren’t “getting lucky” — they’re executing an organized, repeatable pipeline called The Cyber Kill Chain, while most organizations still rely on reactive security and incomplete visibility. Today, let’s break it down — not as theory, but as a practical framework for stopping attacks long before they succeed. 🧵 1. Reconnaissance — The Silent Stalker Phase Attackers start by learning everything about the target: open ports, exposed services, employees, weak technologies, unpatched systems. Defender actions: * Attack surface monitoring * LinkedIn/OSINT footprint minimization * Continuous external scanning If you don’t know what the attacker sees, you're already losing. 🧵 2. Weaponization — Turning Intel Into Ammunition Here, attackers build malware, payloads, exploits, and phishing lures tailored to your environment. Defender actions: * Threat intelligence integration * Understanding common exploit chains * Strengthening email + endpoint detection Weaponization is where attacks become *targeted*. 🧵 3. Delivery — Getting the Payload Into Your Network Phishing, malicious attachments, fake login portals, USB drops, drive-by downloads. Defender actions: * Email filtering * Web proxy defenses * User training based on *real* adversary techniques If it reaches the user, it’s already too late. 🧵 4. Exploitation — Breaking the First Barrier Attackers exploit a vulnerability to run code. Defender actions: * Patch cadence * Vulnerability prioritization (CVSS + EPSS) * Hardening configs, MFA everywhere One unpatched service = full compromise. 🧵 5. Installation — Establishing Persistence Backdoors, trojans, registry changes, scheduled tasks. Defender actions: * Endpoint monitoring * Behavioral anomaly detection * Blocking unsigned or untrusted binaries Persistence means the attacker now has a *home* inside your network. 🧵 6. Command & Control — Talking to the Attacker The infected system phones back to a C2 server for instructions. Defender actions: * DNS monitoring * Blocking known malicious infrastructure * Detecting beaconing patterns No C2 = no remote control. 🧵 7. Actions on Objectives — The Payoff Data exfiltration, privilege escalation, encryption (ransomware), sabotage, or lateral movement. Defender actions: * Least privilege * Network segmentation * DLP and SOC visibility If an attacker reaches this stage, damage is almost always guaranteed. ⚠️ Why Defenders Lose When They Ignore the Kill Chain Most teams monitor only the *final* stages (detection, exfiltration, ransomware). But attack prevention happens in the *early* stages — recon, delivery, exploitation. When defenders don’t map the kill chain: ❌ They don’t know where their controls fail ❌ They respond too late ❌ They can’t predict attacker next steps ❌ They build security around symptoms, not the attack lifecycle Attackers win because they follow a roadmap. Defenders lose because they don’t. ✅ The Fix: Operationalize the Kill Chain If you want to stop breaches, transform it from a “concept” into a daily operational model: ✔ Map controls to each stage ✔ Build detection use cases tied to TTPs ✔ Match SOC alerts to kill-chain stages ✔ Conduct purple team exercises ✔ Reduce dwell time at every phase A defender who understands the kill chain becomes *predictive*, not reactive. 🔒 Final Thought Attackers don’t improvise — they execute. The organizations that win are the ones that do the same. Know the chain. Map it. Defend early. Break the attack before it begins.

About