Analyze WiFi firmware and Thumb-2 binaries with a stateful radare2 MCP workflow.
Copy the install command and let the AI configure it · recommended for beginners
No copy-paste install info for "@nebuloss/r2-re-mcp" yet — see the docs or source repo.
Connect to the currently loaded WiFi firmware sample, identify the entry point, initialization routines, and main startup call chain, and summarize each key function in a concise list.
A structured summary of the firmware entry point, key startup functions, and their call relationships.
Find functions related to authentication, key comparison, or password checks in the current binary, analyze the relevant Thumb-2 disassembly, and point out possible hardcoded credentials or bypass conditions.
Locations of relevant functions, interpretation of key disassembly, and a summary of potential security risks.
Based on the current session state, prepare a handoff-ready reverse-engineering summary including identified modules, important strings, suspicious memory addresses, and recommended next steps.
A concise intermediate reverse-engineering report that another team member can continue from.
Use natural language to drive IDA Pro and Ghidra for binary analysis.
Manage MikroTik RouterOS safely with typed, auditable, rollback-ready MCP tools.
Analyze PCAPs offline to extract streams, detect threats, and find leaked credentials.
Run reproducible econometrics and statistical workflows through headless R execution.
Automate Radar tasks and workflows through Rube MCP integrations.
Statically audit MCP server access scope and detect manifest declaration mismatches.