Crash Analyzer
БесплатноНе проверенA Model Context Protocol (MCP) server for automated crash analysis using GDB.
Описание
A Model Context Protocol (MCP) server for automated crash analysis using GDB.
README
A Model Context Protocol (MCP) server for automated crash analysis using GDB.
Introduction
This MCP tool analyzes program crashes and provides detailed debugging insights, including register states, memory snapshots, disassembly, and stack traces.
It was created as a learning exercise to explore how the Model Context Protocol (MCP) works and was built largely with the help of AI agents. The tool has been tested on a few specific crash scenarios and produced promising results, though it hasn’t been deeply validated on more complex cases.
I don’t plan to continue active development, but if you encounter issues or have interesting feature ideas, feel free to open a ticket in the Issues tab — if time allows, I’ll take a look. Contributions, feedback, or forks are always welcome.
Features
🔍 Automatic Crash Detection - Runs programs and detects crashes automatically
📊 Comprehensive Analysis - Captures signal, location, backtrace, registers, memory
🎯 Smart Disassembly - Full function disassembly with crash location marking
💾 Memory Inspection - Read memory at any address with hex/ASCII formatting
⚙️ Register State - Complete CPU register snapshot at crash time
🏗️ System Info - Architecture, debug symbols, endianness detection
⚡ Session-Based - Load once, query multiple times for detailed analysis
Quick Start
Installation
# Install dependencies
pip install -r requirements.txt
Configuration
Add to your MCP settings file:
VS Code with Cline (~/.config/Code/User/mcp.json):
{
"mcpServers": {
"crash-analyzer": {
"command": "python3",
"args": ["/absolute/path/to/mcp_crash_analyzer.py"]
}
}
}
Claude Desktop (~/Library/Application Support/Claude/claude_desktop_config.json):
{
"mcpServers": {
"crash-analyzer": {
"command": "python3",
"args": ["/absolute/path/to/mcp_crash_analyzer.py"]
}
}
}
Environment Variables
MCP_CRASH_ANALYZER_LOG- Custom log file path (optional)- Default:
~/.cache/mcp_crash_analyzer.log - Example:
export MCP_CRASH_ANALYZER_LOG=/var/log/crash_analyzer.log
- Default:
Usage
Basic Workflow
- Load and run a program until it crashes:
load_and_run("/path/to/program", args=["arg1"], timeout=10)
- Analyze the crash:
get_disassembly_function() # See crash instruction
get_registers() # Check CPU state
read_memory("$rsp", 64) # Inspect memory
- Close when done:
close_session()
Available Tools
Core Tools
load_and_run(binary_path, args=None, timeout=10)
Load and run program until crash or exitget_registers(register_names=None)
Get CPU register values at crash timeget_disassembly_function()
Get complete disassembly of crash functionget_disassembly_range(start_address, end_address, mode=0)
Disassemble specific address rangeread_memory(address, size, format="hex")
Read memory at any addressget_system_info()
Get architecture and debug infoget_full_report()
Get complete crash reportclose_session()
Close GDB session
Example Analysis
# 1. Run program
result = load_and_run("/path/to/crashed_program")
# {"crashed": true, "signal": "SIGSEGV", ...}
# 2. See where it crashed
disasm = get_disassembly_function()
# "0x12345: mov (%rax),%ebx ← CRASH"
# 3. Check registers
regs = get_registers(["rax", "rbx", "rsp"])
# {"rax": "0x0", "rbx": "0x7fff...", ...}
# 4. Read stack
mem = read_memory("$rsp", 128, "both")
# 5. Close
close_session()
Example Output
{
"crashed": true,
"signal": {
"name": "SIGSEGV",
"meaning": "Segmentation fault"
},
"location": {
"function": "process_data",
"address": "0x555555555234",
"file": "main.c",
"line": "42"
},
"disassembly": [
"0x555555555230: mov %rdi,%rax",
"0x555555555234: mov (%rax),%edx ← CRASH",
"0x555555555236: add $0x1,%edx"
]
}
Common Signal Types
When analyzing crashes, you'll encounter these common signals:
- SIGSEGV - Segmentation fault (invalid memory access, NULL pointer dereference)
- SIGABRT - Abort signal (assertion failure,
abort()call) - SIGFPE - Floating point exception (division by zero, invalid math operation)
- SIGILL - Illegal instruction (corrupted code, wrong architecture)
- SIGBUS - Bus error (misaligned memory access)
- SIGSYS - Bad system call
Requirements
- Python 3.8+
- GDB (GNU Debugger)
pygdbmi- Python GDB Machine Interfacefastmcp- Fast MCP server framework
Use Cases
- Automated Testing: Detect and analyze crashes in CI/CD pipelines
- Bug Triage: Generate detailed crash reports with full context
- Forensics: Post-mortem debugging of production crashes
- Security Analysis: Analyze exploits and vulnerabilities
- Learning: Study assembly, understand why programs crash
- Development: Quick crash analysis without manual GDB sessions
Crash Analysis Workflow
The crash analyzer provides detailed information about program failures:
What Gets Captured
- Signal Information - Type of crash and what caused it
- Crash Location - Exact function, file, line, and address
- Backtrace - Full call stack showing how program reached the crash
- Register Values - CPU state at crash time (for low-level debugging)
- Local Variables - Variable values in the crashing function
- Disassembly - Assembly instructions around crash address
- Memory State - Stack and heap inspection
- Console Output - All program output before the crash
Analysis Modes
Session-Based (Advanced):
- Load program once with
load_and_run() - Query details with individual tools
- Fine-grained control over what to inspect
- Best for deep debugging
Full Report (Quick):
- Get everything at once with
get_full_report() - Complete crash analysis in one call
- Best for automated reporting
How It Works
- Uses
pygdbmito control GDB via Machine Interface - Maintains session state between load and analysis
- Captures register snapshot at crash moment
- Provides multiple analysis views (disassembly, memory, registers)
Limitations
- Platform: Linux/Unix only (requires GDB)
- Execution: Programs must be executable with proper permissions
- Reproducibility: Crashes must be reproducible (deterministic)
- Debug Info: Source line information requires debug symbols (
-gflag) - Core Dumps: Cannot directly analyze core dumps (run program instead)
- Single Crash: Analyzes first crash only (doesn't continue after crash)
- Optimization: Heavily optimized code may have incomplete variable information
Best Practices
- Compile with debug symbols: Use
-gflag for source line information - Disable optimization during debugging: Use
-O0to preserve variable info - Set appropriate timeouts: Increase timeout for slow-starting programs
- Check permissions: Ensure binary has execute permissions (
chmod +x) - Use absolute paths: Provide full paths to binaries and source files
🐛 Troubleshooting
| Issue | Solution |
|---|---|
| Import error | pip3 install pygdbmi fastmcp |
| GDB not found | sudo apt install gdb |
| Session already running | Call close_session() first |
| Timeout errors | Increase timeout parameter in load_and_run() |
| No debug symbols | Compile with -g flag: gcc -g -o program program.c |
| Missing source info | Ensure source files are accessible at original paths |
| Incomplete backtrace | Compile without optimizations: gcc -g -O0 -o program program.c |
| Permission denied | Make binary executable: chmod +x program |
| No crash detected | Check if program requires input or increase timeout |
| Need debug logs | Check ~/.cache/mcp_crash_analyzer.log for detailed logs |
📚 Resources
- pygdbmi: https://github.com/cs01/pygdbmi
- GDB/MI: https://sourceware.org/gdb/onlinedocs/gdb/GDB_002fMI.html
- MCP: https://modelcontextprotocol.io/
License
MIT License - Free to use and modify
Author
Magnus Lucchese
Note: This tool automates GDB for crash analysis. For interactive debugging, use GDB directly.
Установка Crash Analyzer
У этого сервера нет опубликованного пакета — он собирается из исходников. Открой репозиторий и следуй инструкции в README.
▸ github.com/maglu/mcp-crash-analyzerFAQ
Crash Analyzer MCP бесплатный?
Да, Crash Analyzer MCP бесплатный — установка в пару кликов через Unyly без оплаты.
Нужен ли API-ключ для Crash Analyzer?
Нет, Crash Analyzer работает без API-ключей и переменных окружения.
Crash Analyzer — hosted или self-hosted?
Self-hosted: сервер запускается локально на твоей машине командой из раздела установки.
Как установить Crash Analyzer в Claude Desktop, Claude Code или Cursor?
Открой Crash Analyzer на unyly.org, выбери вкладку своего клиента (Claude Desktop, Claude Code, Cursor) и нажми Install — конфиг сгенерируется автоматически, без правки JSON.
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