Marketplace binary-re-tool-setup
Use when reverse engineering tools are missing, not working, or need configuration. Installation guides for radare2 (r2), Ghidra, GDB, QEMU, Frida, binutils, and cross-compilation toolchains. Keywords - "install radare2", "setup ghidra", "r2 not found", "qemu missing", "tool not installed", "configure gdb", "cross-compiler"
install
source · Clone the upstream repo
git clone https://github.com/aiskillstore/marketplace
Claude Code · Install into ~/.claude/skills/
T=$(mktemp -d) && git clone --depth=1 https://github.com/aiskillstore/marketplace "$T" && mkdir -p ~/.claude/skills && cp -r "$T/skills/2389-research/binary-re-tool-setup" ~/.claude/skills/aiskillstore-marketplace-binary-re-tool-setup && rm -rf "$T"
manifest:
skills/2389-research/binary-re-tool-setup/SKILL.mdsource content
Tool Setup
Purpose
Ensure required reverse engineering tools are available and properly configured for cross-architecture analysis.
When to Use
- Before first analysis session
- When tool commands fail
- Setting up new analysis environment
- Updating to newer tool versions
Required Tools
| Tool | Purpose | Priority |
|---|---|---|
| radare2 | Static analysis, disassembly | Required |
| rabin2 | Fast binary triage | Required (part of r2) |
| qemu-user | Cross-arch emulation | Required |
| gdb-multiarch | Cross-arch debugging | Required |
| Ghidra | Decompilation | Recommended |
| GEF | GDB enhancements | Recommended |
| Frida | Dynamic instrumentation | Optional |
| Unicorn | Snippet emulation | Optional |
| Angr | Symbolic execution | Optional |
Installation by Platform
Ubuntu/Debian
# Core tools sudo apt update sudo apt install -y \ radare2 \ qemu-user \ qemu-user-static \ gdb-multiarch \ binutils-multiarch \ jq # Required for JSON parsing in skill commands # ARM sysroots (for QEMU) sudo apt install -y \ libc6-armhf-cross \ libc6-arm64-cross \ libc6-dev-armhf-cross \ libc6-dev-arm64-cross # Additional utilities sudo apt install -y \ file \ binutils \ elfutils \ patchelf
Windows (WSL2)
Windows users should use WSL2 with Ubuntu for full compatibility:
# PowerShell (Administrator) - Install WSL2 with Ubuntu wsl --install -d Ubuntu # Restart computer when prompted, then open Ubuntu terminal
Inside WSL2 Ubuntu:
# Install all required tools sudo apt update && sudo apt install -y \ radare2 \ qemu-user \ qemu-user-static \ gdb-multiarch \ binutils-multiarch \ jq \ file \ patchelf # Fix file permissions for Windows-mounted drives sudo tee -a /etc/wsl.conf > /dev/null << 'EOF' [automount] options = "metadata,umask=22,fmask=11" EOF # Restart WSL to apply changes # (In PowerShell: wsl --shutdown)
WSL2 Tips:
- Copy binaries into
rather than using~
paths (fewer permission issues)/mnt/c/... - Use
in PowerShell to restart WSL after config changeswsl --shutdown - Docker Desktop integrates with WSL2 for container-based analysis
macOS (Homebrew)
# Core tools brew install radare2 jq # NOTE: Homebrew QEMU may lack qemu-user targets # Verify: qemu-arm --version || echo "qemu-user missing" # If missing, use Docker for cross-arch execution (see below) # GDB requires special handling on macOS brew install gdb # Note: Code signing required for debugging # ARM cross tools (optional, for static analysis only) brew install arm-linux-gnueabihf-binutils
macOS Docker Setup for Dynamic Analysis
Since Homebrew doesn't provide
qemu-user# Install Docker runtime (Colima is lightweight alternative to Docker Desktop) brew install colima docker # Start Colima colima start # Register multi-architecture emulation handlers docker run --rm --privileged --platform linux/arm64 \ tonistiigi/binfmt --install arm # Verify ARM32 emulation works docker run --rm --platform linux/arm/v7 arm32v7/debian:bullseye-slim uname -m # Should output: armv7l # Verify ARM64 emulation works docker run --rm --platform linux/arm64 arm64v8/debian:bullseye-slim uname -m # Should output: aarch64 # Verify x86-32 emulation works docker run --rm --platform linux/i386 i386/debian:bullseye-slim uname -m # Should output: i686
IMPORTANT: On Colima, always mount from
~//tmp/# ✅ Works docker run -v ~/samples:/work ... # ❌ May fail silently docker run -v /tmp/samples:/work ...
Arch Linux
sudo pacman -S radare2 qemu-user gdb yay -S arm-linux-gnueabihf-glibc # From AUR
Tool-Specific Setup
radare2
# Verify installation r2 -v rabin2 -v # Install r2ghidra plugin (decompilation) r2pm init r2pm update r2pm -ci r2ghidra # -ci = clean install # Verify r2ghidra is working (CRITICAL CHECK) r2 -qc 'pdg?' - 2>/dev/null | grep -q Usage && echo "r2ghidra OK" || echo "r2ghidra MISSING" # Alternative verification r2 -c 'Ld' /bin/ls | grep -i ghidra
Common r2ghidra issues:
| Symptom | Cause | Fix |
|---|---|---|
| Plugin not loaded | |
| Plugin loads but crashes | Version mismatch | Update both r2 and plugin |
| Decompilation hangs | Large function | Use |
Configuration (~/.radare2rc):
# Disable colors for scripting e scr.color=false # Increase analysis limits e anal.timeout=120 e anal.maxsize=67108864 # JSON output by default for scripts e cfg.json.num=true
Ghidra (Headless)
# Download from https://ghidra-sre.org/ # Extract to /opt/ghidra # Verify headless script /opt/ghidra/support/analyzeHeadless --help # Add to PATH echo 'export PATH=$PATH:/opt/ghidra/support' >> ~/.bashrc
Memory configuration (for large binaries): Edit
/opt/ghidra/support/analyzeHeadlessMAXMEM=4G # Increase from default
GEF (GDB Enhanced Features)
# Install GEF bash -c "$(curl -fsSL https://gef.blah.cat/sh)" # Verify gdb -q -ex "gef help" -ex "quit" # For ARM Cortex-M support, also install gef-extras git clone https://github.com/hugsy/gef-extras.git ~/.gef-extras echo 'source ~/.gef-extras/scripts/checksec.py' >> ~/.gdbinit
Frida
# Install Frida tools pip install frida-tools # Verify frida --version # Install frida-server for device debugging (optional) # Download from https://github.com/frida/frida/releases
Unicorn (Python bindings)
pip install unicorn # Verify python -c "from unicorn import *; print('OK')"
Angr
# Create virtual environment (recommended) python -m venv ~/angr-venv source ~/angr-venv/bin/activate # Install angr pip install angr # Verify python -c "import angr; print('OK')"
YARA
# Ubuntu/Debian sudo apt install yara # Or from source for latest git clone https://github.com/VirusTotal/yara.git cd yara ./bootstrap.sh ./configure make && sudo make install # Python bindings pip install yara-python
Sysroot Setup
Standard Debian/Ubuntu Sysroots
Already installed via
libc6-*-cross# Verify paths ls /usr/arm-linux-gnueabihf/lib/ ls /usr/aarch64-linux-gnu/lib/
Custom Sysroot from Device
# Pull from device via SSH mkdir -p ~/sysroots/device ssh user@device "tar czf - /lib /usr/lib" | tar xzf - -C ~/sysroots/device # Or minimal extraction ssh user@device "tar czf - /lib/ld-* /lib/libc.* /lib/libpthread.* /lib/libdl.*" \ | tar xzf - -C ~/sysroots/device
Musl Sysroot
# From Alpine Linux docker run -it --rm -v ~/sysroots:/out alpine:latest sh -c \ "apk add musl musl-dev && cp -a /lib /usr /out/alpine-musl"
Verification Script
Run this to verify all tools are working:
#!/bin/bash set -e echo "=== Binary RE Tool Verification ===" # radare2 echo -n "radare2: " r2 -v | head -1 # rabin2 echo -n "rabin2: " rabin2 -v | head -1 # QEMU echo -n "qemu-arm: " qemu-arm --version | head -1 echo -n "qemu-aarch64: " qemu-aarch64 --version | head -1 # GDB echo -n "gdb-multiarch: " gdb-multiarch --version | head -1 # Ghidra (optional) if command -v analyzeHeadless &> /dev/null; then echo -n "Ghidra: " analyzeHeadless 2>&1 | head -1 || echo "available" else echo "Ghidra: not installed (optional)" fi # Frida (optional) if command -v frida &> /dev/null; then echo -n "Frida: " frida --version else echo "Frida: not installed (optional)" fi # Sysroots echo "" echo "=== Sysroots ===" [ -d /usr/arm-linux-gnueabihf ] && echo "ARM hard-float: OK" || echo "ARM hard-float: MISSING" [ -d /usr/aarch64-linux-gnu ] && echo "ARM64: OK" || echo "ARM64: MISSING" echo "" echo "=== Verification Complete ==="
Troubleshooting
Common Issues Quick Reference
| Symptom | Cause | Fix |
|---|---|---|
| binfmt not registered | |
| Linker path mismatch | |
| Missing dependency | |
r2 | r2ghidra not installed | |
Empty xrefs from | Shallow analysis | Use |
| Empty Docker mount | Colima /tmp issue | Use |
| strace fails in container | ptrace not implemented | Use |
r2 "Cannot open file"
# Check permissions ls -la binary # Try with explicit format r2 -b 32 binary
QEMU "Invalid ELF image"
# Verify architecture matches file binary # Check QEMU variant qemu-arm --help | grep -i "target"
Docker "exec format error"
# Register binfmt handlers (one-time setup) docker run --rm --privileged --platform linux/arm64 \ tonistiigi/binfmt --install arm # Verify registration cat /proc/sys/fs/binfmt_misc/qemu-arm
GDB "Cannot execute binary"
# Use QEMU as gdbserver qemu-arm -g 1234 ./binary & gdb-multiarch -ex "target remote :1234" ./binary
Ghidra "Out of memory"
# Increase heap in analyzeHeadless script # Or pass explicitly: analyzeHeadless ... -max-cpu 4 -analysisTimeoutPerFile 600
Missing ARM libraries in QEMU
# Set LD_LIBRARY_PATH in QEMU environment qemu-arm -E LD_LIBRARY_PATH=/lib:/usr/lib -L /sysroot ./binary # Or use patchelf to modify binary's rpath patchelf --set-rpath /lib:/usr/lib ./binary
Docker container can't find libraries
# Inside container, install common dependencies apt-get update && apt-get install -y libcap2 libacl1 # Check what the binary needs # (Run rabin2 -l on host before entering container)
Version Recommendations
| Tool | Minimum | Recommended |
|---|---|---|
| radare2 | 5.8.0 | Latest |
| QEMU | 7.0 | 8.0+ |
| GDB | 12.0 | 14.0+ |
| Ghidra | 10.3 | 11.0+ |
| Frida | 16.0 | Latest |
Environment Variables
Add to
~/.bashrc~/.zshrc# Ghidra export GHIDRA_HOME=/opt/ghidra export PATH=$PATH:$GHIDRA_HOME/support # Default sysroot for QEMU export QEMU_LD_PREFIX=/usr/arm-linux-gnueabihf # Angr virtual environment alias angr-activate='source ~/angr-venv/bin/activate'