analyze-codebase-for-mcp

pjt222

Updated Yesterday

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About

This skill analyzes a codebase to identify functions, APIs, and data sources that can be exposed as Model Context Protocol (MCP) tools, generating a structured specification document. It's used when planning an MCP server, auditing a codebase for AI-accessible tool surfaces, or comparing existing capabilities with current MCP exposure. The analysis focuses on functions, REST endpoints, CLI commands, and data access points suitable for tool conversion.

Quick Install

Claude Code

Recommended

Primary

npx skills add pjt222/agent-almanac -a claude-code

Plugin CommandAlternative

/plugin add https://github.com/pjt222/agent-almanac

Git CloneAlternative

git clone https://github.com/pjt222/agent-almanac.git ~/.claude/skills/analyze-codebase-for-mcp

Copy and paste this command in Claude Code to install this skill

Documentation

Analyze Codebase for MCP

Scan codebase → fns, REST endpoints, CLI cmds, data access candidates → MCP tool exposure → structured tool spec doc.

Use When

Plan MCP server existing project → know what to expose
Audit codebase pre-AI-tool-surface wrap
Compare codebase capability vs MCP exposed
Generate tool spec → hand to scaffold-mcp-server
Evaluate 3rd-party lib worth wrapping

In

Required: Path to codebase root
Required: Target lang(s) (TS, Python, R, Go)
Optional: Existing MCP server code → gap analysis
Optional: Domain focus ("data analysis", "file ops", "API integration")
Optional: Max tools to recommend (default: 20)

Do

Step 1: Scan Structure

1.1. Glob → dir tree, src dirs:

src/**/*.{ts,js,py,R,go,rs} → src files
**/routes/**, **/api/**, **/controllers/** → endpoints
**/cli/**, **/commands/** → CLI entries
**/package.json, **/setup.py, **/DESCRIPTION → dep metadata

1.2. Categorize by role:

Entry: main files, route handlers, CLI cmds
Core logic: business fns, algos, data transformers
Data access: DB queries, file I/O, API clients
Utilities: helpers, formatters, validators

1.3. Count files, LOC, exported symbols → gauge size.

→ Categorized inventory w/ role annotations.

If err: Too large (>10K files) → narrow via domain focus. No src found → verify root path + lang params.

Step 2: Identify Fns + Endpoints

2.1. Grep exported fns + public APIs:

TS/JS: export (async )?function, export default, module.exports
Python: fns no _ prefix, @app.route, @router
R: NAMESPACE or #' @export roxygen
Go: capitalized fn names (exported by convention)

2.2. Per candidate extract:

Name: fn/endpoint
Signature: params w/ types + defaults
Return type
Docs: docstrings, JSDoc, roxygen, godoc
Location: file path + line

2.3. REST APIs, also extract:

HTTP method + route pattern
Req body schema
Res shape
Auth reqs

2.4. Sort by potential utility (public, documented, well-typed first).

→ 20-100 candidates w/ extracted metadata.

If err: Few candidates → broaden → include internal that could be public. Sparse docs → flag as risk.

Step 3: Evaluate MCP Suitability

3.1. Per candidate → MCP tool criteria:

In contract clarity: params well-typed + documented? JSON Schema describable?
Out predictability: structured (JSON-serializable)? Consistent shape?
Side effects: modifies state (files, DB, external)? Must be labeled.
Idempotency: safe to retry? Non-idempotent → explicit warn.
Exec time: completes <30s? Long-running → async patterns.
Err handling: structured errs or silent fail?

3.2. Score 1-5:

5: Pure fn, typed I/O, documented, fast, no side effects
4: Well-typed, documented, minor side effects (logging)
3: Reasonable I/O, needs wrapping (raw objects)
2: Significant side effects or unclear, substantial adaptation
1: Not suitable no major refactor

3.3. Filter ≥3. Flag score-2 → "future candidates" needing refactor.

→ Scored + filtered list w/ suitability rationale.

If err: Most <3 → codebase needs refactor pre-MCP. Doc gaps → recommend (add types, extract pure fns, wrap side effects).

Step 4: Design Tool Specs

4.1. Per selected (≥3) draft spec:

- name: tool_name
  description: >
    One-line description of what the tool does.
  source_function: module.function_name
  source_file: src/path/to/file.ts:42
  parameters:
    param_name:
      type: string | number | boolean | object | array
      description: What this parameter controls
      required: true | false
      default: value_if_optional
  returns:
    type: string | object | array
    description: What the tool returns
  side_effects:
    - description of any side effect
  estimated_latency: fast | medium | slow
  suitability_score: 5

4.2. Group logical categories ("Data Queries", "File Ops", "Analysis", "Config").

4.3. Identify deps between tools ("list_datasets" before "query_dataset").

4.4. Need wrappers?

Simplify complex param objects → flat in
Convert raw returns → structured text/JSON
Safety guards (read-only wrappers for DB fns)

→ Complete YAML spec w/ categories, deps, wrapper notes.

If err: Ambiguous → Step 2 → more src detail. Param types uninferable → flag manual review.

Step 5: Generate Tool Spec Doc

5.1. Final doc sections:

Summary: Codebase overview, lang, size, date
Recommended Tools: Full specs from Step 4, grouped
Future Candidates: Score-2 + refactor recs
Excluded: Score-1 + rationale
Dependencies: Tool dep graph
Impl Notes: Wrappers, auth, transport

5.2. Save mcp-tool-spec.yml (machine) + mcp-tool-spec.md (human).

5.3. Existing MCP server provided → gap analysis:

In spec, not impl
Impl, not in spec (stale)
Spec drift (impl diverges)

→ Complete doc → consumable by scaffold-mcp-server.

If err: >200 tools → split modules w/ cross-refs. No candidates → "readiness assessment" doc w/ refactor recs.

Check

Traps

Too many tools: AI works best 10-30 focused. Breadth > depth. Resist every public fn.
Ignore side effects: "Just reads" + logs/cache = still side effects. Audit Grep file writes, network, DB.
Assume type safety: Dynamic langs (Py, R, JS) may lack type annotations. Infer from usage, flag uncertainty.
Missing auth ctx: Fns working in authed web req may fail via MCP no session. Check implicit session cookies, JWT, env creds.
Over-engineer wrappers: 50-line wrapper → not good candidate. Prefer natural mapping.
Neglect err paths: MCP must return structured errs. Untyped exceptions → err-handling wrappers.
Conflate internal + external APIs: Internal helpers poor candidates. Focus external-consumption or boundary APIs.
Skip gap analysis: Existing MCP provided → always compare. No gap analysis → duplicate work or stale tools.

→

scaffold-mcp-server — use out spec → working MCP
build-custom-mcp-server — manual impl ref
configure-mcp-server — connect to Claude Code/Desktop
troubleshoot-mcp-connection — debug after deploy
review-software-architecture — arch review for tool surface
security-audit-codebase — audit pre-external exposure

GitHub Repository

pjt222/agent-almanac

Path: i18n/caveman-ultra/skills/analyze-codebase-for-mcp

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