!!CAGE LAB🧪🥼!!! hardware security testing framework, I guess I just wanted to share the architecture with people who understand both the offensive and defensive sides.
D.Z.D.E or Daedalus SubZD Engine lil break down:
8 independent cells, each running a Raspberry Pi 5 controller with auto detected I2C/SPI/UART/USB extensions.
Designed for Rowhammer, EMFI, laser fault injection, thermal manipulation, and voltage glitching all commodity hardware under $15K total.
The bs problem it solves imo:
Hardware security R&D usually dies at the whole "can we even talk to this chip?"
This auto detects extensions, provides per target calibration interfaces, and runs everything through a physical kill switch with CAGE/LIVE/WAR safety modes.
Cost per cell hardware is \~$600:
Pi 5 8GB + Pi Edge HAT
RTL-SDR / HackRF for RF verification
RFID (MFRC522), LoRa (SX1276), GPS (NEO-6M), CAN (MCP2515)
EMFI coils, 808nm laser diodes, TEC1 12706 Peltier
ADS1115 ADC + MCP4725 DAC for precision glitching
8 channel relays, PCA9685 PWM drivers.
Repo: github.com/synchancybersecurity/Daedalus-SubZD-Engine
Cage lab authorized only.
Physical kill switch is the sole fail-safe.
Agent F.
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from hacking: security in practice https://ift.tt/mFqPYxI
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