| name | node-inspect-debugger |
| description | See runtime state a console.log cannot reach — set real breakpoints, step, and dump the scope chain of a paused Node/TypeScript process. Use on triggers like "set a breakpoint", "inspect runtime state", "console.log isn't enough", "step through this", "what's in this closure at runtime", "attach a debugger". Carries a jiti launch recipe verified against this repo's TypeScript loader. Not a logging or observability-setup workflow. |
| related_skills | systematic-debugging, observability-instrumentation |
Node Inspect Debugger
Overview
console.log is a guess with a print statement attached — you have to already suspect where to look and what to print. A breakpoint inverts that: you stop the world at a line and read every local and closure variable in the frame, walk the call stack, and evaluate expressions in the paused context. When the bug lives in state a log can't cheaply reach — a closure captured three calls ago, a paused async frame, the Electron main process, the internals of a long-lived WebSocket server — the inspector is the tool.
This skill is the TOOL half of a pair; the METHOD is systematic-debugging (its Phase 1 "gather evidence" and Phase 3 "test one variable" are exactly when you reach for a breakpoint).
When to Use
Reach for the inspector when the state you need is expensive or impossible to log:
- The jiti server (
packages/server, TypeScript run directly via jiti) — request handlers whose failure depends on accumulated in-memory state.
- The restart orchestrator / PTY workers (
restart-helper.ts) — a detached process whose closure state you can't console.log from the parent.
- Dual WebSocket server closure state — connection maps and buffers held in closures across the bridge and browser servers.
- The Electron main process — lifecycle/bootstrap state that never reaches a browser console.
- The bridge extension — code running inside every pi session, where adding logs means reloading every session.
If a single well-placed console.log would answer the question, use the log. The inspector earns its setup cost when the state is deep, closure-bound, or in a process you can't easily instrument.
Two tiers
| Tier | Use when | Interface |
|---|
REPL (node inspect) | interactive, one-off, you're driving | the node inspect command REPL |
| Programmatic CDP | scripted, repeatable, or attaching from another process | scripts/cdp-inspect.ts (this skill) |
Tier 1 — the node inspect REPL cheat-sheet
node inspect opens a REPL against the inspector. Core commands:
| Command | Does |
|---|
sb('file.ts', N) | set breakpoint at line N of file.ts (see jiti note below — .ts works directly) |
c | continue to next breakpoint |
n / s / o | step next / step-in / step-out |
bt | backtrace (call stack of the paused frame) |
list(5) | show 5 source lines around the pause point |
repl | drop into a REPL evaluated in the paused frame's scope — inspect any local |
watch('expr') | re-evaluate expr at every pause |
exec expr | evaluate one expression in the paused frame |
restart / kill | restart / kill the inspected process |
In repl mode you can read any in-scope variable by name — this is the fastest way to answer "what is x right now?".
Tier 2 — pi-dashboard jiti launch (spike-verified)
This repo runs TypeScript directly through jiti (no dist/*.js build). Launch the target with the inspector and jiti's register hook:
node --inspect-brk=<port> --enable-source-maps --import <jiti-register-hook-url> cli.ts
--inspect-brk=<port> halts at the very first line so you can set breakpoints before anything runs.
--enable-source-maps is not required for line-level breakpoints (jiti is line-preserving, see pitfall below) but keep it: it gives exact column precision and correct Error.stack line numbers.
Locating the jiti register hook (do not hard-code the path)
The register hook path differs across local / standalone / global installs. Resolve it the same way this repo's launcher (packages/server/bin/pi-dashboard.mjs) does — via createRequire, trying each supported jiti package:
import { createRequire } from "node:module";
import { dirname, join } from "node:path";
import { pathToFileURL } from "node:url";
const req = createRequire(import.meta.url);
const JITI_PACKAGES = ["jiti", "@mariozechner/jiti"];
let hook;
for (const pkg of JITI_PACKAGES) {
try {
const pkgJson = req.resolve(`${pkg}/package.json`);
hook = pathToFileURL(join(dirname(pkgJson), "lib", "jiti-register.mjs")).href;
break;
} catch { }
}
Attaching to the live server (not a fresh launch)
To debug the already-running server instead of a cold --inspect-brk launch, start it with the inspector enabled and discover the port:
NODE_OPTIONS="--inspect=0" pi-dashboard start
curl -s http://127.0.0.1:<port>/json/list
--inspect=0 avoids a port collision when something already holds the default 9229.
Pitfalls
The upstream "emitted JS" pitfall does NOT apply to jiti — corrected
A common guide warns: "breakpoints hit the emitted JS, not your .ts, and node inspect doesn't follow sourcemaps." This is false for this repo. jiti transpiles line-preserving and registers the compiled JS under the .ts URL (1:1 line alignment). There is no separate dist/*.js file and no sourcemap indirection to fight.
Consequences you can rely on:
sb('cli.ts', 42) in the plain node inspect REPL binds directly to line 42 of the .ts source and hits.
Debugger.setBreakpointByUrl('cli.ts', line) over CDP binds to the .ts line.
- CDP may report
sourceMapURL: "" (jiti attaches none) — this does not mean the breakpoint won't bind. It binds and hits anyway.
Do not port the emitted-JS workaround; it's solving a problem jiti doesn't create.
Pending breakpoints return empty locations but still hit
A breakpoint set before the target script has parsed (e.g. right after the --inspect-brk halt) returns locations: [] at set-time. This is not a failure — the breakpoint is deferred and resolves and hits once the script parses. Setting a breakpoint after the script has parsed returns populated locations. Do not treat an empty locations array at set-time as "the breakpoint didn't take."
Programmatic CDP — scripts/cdp-inspect.ts
For scripted or repeatable inspection, this skill ships a dependency-free TypeScript helper. It uses Node 24's global WebSocket — no chrome-remote-interface dependency. It attaches to a paused target, sets a .ts breakpoint, resumes past the entry halt, and on the hit prints the paused frame plus every local and closure variable:
npx tsx packages/eng-disciplines/.pi/skills/node-inspect-debugger/scripts/cdp-inspect.ts <port> <ts-url> <line>
Use it as the ready-made "dump the frame" step whenever the REPL's interactivity isn't worth it.
Verification