rfcxml-mcp
MCP server for structural understanding of RFC documents.
RFCXML MCP Server
A Model Context Protocol (MCP) server for structured understanding of RFC documents.
Purpose
Unlike existing text-based RFC MCP servers, this server leverages the semantic structure of RFCXML to enable:
- Normative requirements extraction (MUST/SHOULD/MAY) with structured output
- RFC dependency graph construction
- Definition scope management
- Implementation checklist generation
Architecture
┌─────────────────────────┐
│ Markdown / PDF │ Display & Sharing
├─────────────────────────┤
│ Translation │ Explanation & Verification
├─────────────────────────┤
│ RFCXML MCP │ Common Understanding for AI & Humans
├─────────────────────────┤
│ RFCXML │ Single Source of Truth
└─────────────────────────┘
Comparison with Existing MCPs
| Feature | Existing mcp-rfc | RFCXML MCP |
|---|---|---|
| RFC text retrieval | ✅ | ✅ |
| Section extraction | ✅ (text-based) | ✅ (structure-based) |
| MUST/SHOULD/MAY extraction | ❌ | ✅ |
| Condition/exception structuring | ❌ | ✅ |
| RFC dependency graph | ❌ | ✅ |
| Definition scope management | ❌ | ✅ |
| Implementation checklist | ❌ | ✅ |
Quick Start
Using with Claude Desktop / Claude Code
Add the following to your MCP configuration file:
{
"mcpServers": {
"rfcxml": {
"command": "npx",
"args": ["-y", "@shuji-bonji/rfcxml-mcp"]
}
}
}
Configuration file locations:
- Claude Desktop (macOS):
~/Library/Application Support/Claude/claude_desktop_config.json - Claude Desktop (Windows):
%APPDATA%\Claude\claude_desktop_config.json - Claude Code:
.claude/settings.jsonor useclaude settingscommand
Installation (Optional)
For global installation:
npm install -g @shuji-bonji/rfcxml-mcp
# MCP configuration
{
"mcpServers": {
"rfcxml": {
"command": "rfcxml-mcp"
}
}
}
Available Tools
Phase 1: Basic Structure
get_rfc_structure- Get section hierarchy and metadataget_requirements- Extract normative requirements (MUST/SHOULD/MAY) with structureget_definitions- Get term definitions and their scope
Phase 2: Relationships
get_rfc_dependencies- Get referenced RFCs (normative/informative)get_related_sections- Get related sections within the same RFC
Phase 3: Verification Support
validate_statement- Verify if a statement complies with RFC requirementsgenerate_checklist- Generate implementation checklist
Legacy RFC Support
RFCs published after RFC 8650 (December 2019) are available in official RFCXML v3 format. Earlier RFCs may not have XML available.
This server includes automatic fallback functionality - when XML is unavailable, it parses the text format instead.
Source Information
All responses include source information:
{
"rfc": 6455,
"sections": [...],
"_source": "text",
"_sourceNote": "⚠️ Parsed from text format. Accuracy may be lower."
}
_source | Description |
|---|---|
xml | Parsed from RFCXML (high accuracy) |
text | Parsed from text (medium accuracy) |
Compatibility
| RFC | Format | Notes |
|---|---|---|
| RFC 8650+ | XML | Official RFCXML v3 support |
| Before RFC 8650 | Text | Automatic fallback |
Output Samples
get_rfc_structure - Get RFC Structure
{
"metadata": {
"title": "Transmission Control Protocol (TCP)",
"docName": "draft-ietf-tcpm-rfc793bis-28",
"number": 9293
},
"sections": [
{
"number": "section-1",
"title": "Purpose and Scope"
},
{
"number": "section-3",
"title": "Functional Specification",
"subsections": [
{ "number": "section-3.1", "title": "Header Format" },
{
"number": "section-3.5",
"title": "Establishing a Connection",
"subsections": [
{ "number": "section-3.5.1", "title": "Half-Open Connections and Other Anomalies" },
{ "number": "section-3.5.2", "title": "Reset Generation" }
]
}
]
}
],
"referenceCount": { "normative": 15, "informative": 85 },
"_source": "xml"
}
get_requirements - Extract Normative Requirements
{
"rfc": 9293,
"filter": { "level": "MUST" },
"stats": { "total": 53, "byLevel": { "MUST": 53 } },
"requirements": [
{
"id": "R-section-3.5-5",
"level": "MUST",
"text": "A TCP implementation support simultaneous open attempts (MUST-10).",
"section": "section-3.5",
"sectionTitle": "Establishing a Connection"
},
{
"id": "R-section-3.7.1-9",
"level": "MUST",
"text": "TCP endpoints implement both sending and receiving the MSS Option (MUST-14).",
"section": "section-3.7.1",
"sectionTitle": "Maximum Segment Size Option"
}
],
"_source": "xml"
}
get_rfc_dependencies - Get RFC Dependencies
{
"rfc": 9293,
"normative": [
{ "rfcNumber": 791, "title": "Internet Protocol", "anchor": "RFC0791" },
{ "rfcNumber": 2119, "title": "Key words for use in RFCs to Indicate Requirement Levels" },
{ "rfcNumber": 5681, "title": "TCP Congestion Control" }
],
"informative": [
{ "rfcNumber": 793, "title": "Transmission Control Protocol" },
{ "rfcNumber": 1122, "title": "Requirements for Internet Hosts - Communication Layers" }
],
"_source": "xml"
}
generate_checklist - Generate Implementation Checklist
# RFC 9293 Implementation Checklist
**Transmission Control Protocol (TCP)**
Role: Client
## Required (MUST / REQUIRED / SHALL)
- [ ] A TCP implementation support simultaneous open attempts (MUST-10). (section-3.5)
- [ ] TCP endpoints implement both sending and receiving the MSS Option (MUST-14). (section-3.7.1)
- [ ] The RTO be computed according to the algorithm in, including Karn's algorithm (MUST-18). (section-3.8.1)
## Optional (MAY / OPTIONAL)
- [ ] Implementers include "keep-alives" in their TCP implementations (MAY-5). (section-3.8.4)
Text Fallback Output (Legacy RFCs)
{
"metadata": {
"title": "The WebSocket Protocol",
"number": 6455
},
"sections": [
{ "number": "1", "title": "Introduction" },
{ "number": "5", "title": "Data Framing" }
],
"_source": "text",
"_sourceNote": "⚠️ Parsed from text format. Accuracy may be lower."
}
Examples
See the examples/ directory for complete checklist samples:
| RFC | Protocol | Source |
|---|---|---|
| RFC 6455 | WebSocket | Text (fallback) |
| RFC 9293 | TCP | RFCXML |
| RFC 7540 | HTTP/2 | Text (fallback) |
Example prompt for Claude:
Generate an implementation checklist for RFC 9293 (TCP).
Internal Architecture
Module Structure
src/
├── index.ts # MCP server entry point
├── config.ts # Centralized configuration
├── constants.ts # BCP 14 keyword definitions
├── services/
│ ├── rfc-fetcher.ts # RFC fetching (parallel)
│ ├── rfcxml-parser.ts # RFCXML parser
│ ├── rfc-text-parser.ts # Text fallback parser
│ └── checklist-generator.ts # Checklist generation service
├── tools/
│ ├── definitions.ts # MCP tool definitions
│ └── handlers.ts # Tool handlers
├── types/
│ └── index.ts # Type definitions
└── utils/
├── cache.ts # LRU cache
├── fetch.ts # Parallel fetch utility
├── requirement-extractor.ts # Shared requirement extraction
├── section.ts # Section search utilities
├── text.ts # Text processing utility
└── validation.ts # Input validation
RFC Fetch Optimization
Sends parallel requests to multiple sources (RFC Editor, IETF Tools, Datatracker) and uses the first successful response:
┌─────────────────┐
│ fetchRFCXML() │
└────────┬────────┘
│ Parallel requests
┌────┴────┬────────────┐
▼ ▼ ▼
┌────────┐ ┌────────┐ ┌────────┐
│RFC │ │IETF │ │Data- │
│Editor │ │Tools │ │tracker │
└────┬───┘ └────┬───┘ └────┬───┘
│ │ │
└────┬─────┴──────────┘
│ Promise.any (first success)
▼
┌───────────┐
│ Successful│ → Cancel other requests via AbortController
│ Response │
└───────────┘
Cache Strategy
LRU (Least Recently Used) cache with memory limits:
| Cache | Max Entries | Content |
|---|---|---|
| XML Cache | 20 | Raw RFCXML |
| Text Cache | 20 | Raw text |
| Metadata Cache | 100 | RFC metadata |
| Parse Cache | 50 | Parsed structure |
Development
# Install dependencies
npm install
# Development mode
npm run dev
# Build
npm run build
# Test
npm test
# Lint
npm run lint
# Format
npm run format
License
MIT
Related Projects
- mjpitz/mcp-rfc - Text-based RFC MCP
- ietf-tools/RFCXML - RFCXML schema
- xml2rfc - IETF official tool
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