feat(mosaic): claudex proxy preflight + lifecycle helpers (P1 of #790)
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P1 of the `mosaic yolo claudex` launcher (#790): pure, dependency-injected
preflight and lifecycle helpers for `raine/claude-code-proxy` (the local
Anthropic->Codex translation proxy on 127.0.0.1:18765). No session launch yet;
the isolated CLAUDE_CONFIG_DIR composition + env-injection land in PR-2.

Authored test-first (spec written and run red before implementation, then
green). 39 unit tests, 89.6% statement/line coverage on the new module; the
only uncovered lines are the process-spawning system wrappers
(systemd/nohup/wait), which are integration glue unsuitable for unit spawning.

Helpers:
- checkProxyBinary — binary presence via an injectable `which` resolver.
- parseAuthStatus / checkAuthStatus — coarse OAuth state from
  `codex auth status`. Carries NO token material (state + optional expiry only)
  so token-shaped output can never leak downstream.
- runDeviceReauth — `codex auth device` with stdio:'inherit' so the device code
  streams to the user's TTY; the launcher never captures/logs it or sees the
  resulting token.
- probeLiveness — gotcha #1: ANY HTTP response (incl. non-2xx) = alive; only a
  transport failure/timeout = dead. NEVER `curl -f` (that spawned duplicate
  proxies). Bounded by an explicit timeout race so a hung socket can't wedge.
- buildSystemdUnitContent / systemdUnitPath / installSystemdUnit — systemd
  --user unit management; unit carries no credential material.
- runProxyPreflight — structured binary+auth+liveness report.
- ensureProxyRunning — no-op when live, else systemd-preferred with nohup
  fallback, re-probing after each attempt so it never spawns a duplicate.

Refs #790. Not part of the #758 fleet DAG.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
This commit is contained in:
Hermes Agent
2026-07-16 14:37:09 -05:00
parent 9745bc3f29
commit 0e41a5c264
2 changed files with 812 additions and 0 deletions

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import { describe, it, expect, vi } from 'vitest';
import { mkdtempSync, readFileSync, rmSync } from 'node:fs';
import { tmpdir } from 'node:os';
import { join } from 'node:path';
import {
CLAUDEX_PROXY_HOST,
CLAUDEX_PROXY_PORT,
CLAUDEX_PROXY_URL,
CLAUDEX_PROXY_BINARY,
buildAuthStatusArgs,
buildDeviceAuthArgs,
buildServeArgs,
parseAuthStatus,
checkProxyBinary,
checkAuthStatus,
runDeviceReauth,
probeLiveness,
buildSystemdUnitContent,
systemdUnitPath,
installSystemdUnit,
runProxyPreflight,
ensureProxyRunning,
type AuthStatus,
type ProxyRunResult,
} from './claudex-proxy.js';
/**
* P1 — Proxy preflight + lifecycle helpers for `mosaic yolo claudex`.
*
* Security-relevant invariants exercised here:
* - Liveness probe treats ANY HTTP response (even non-2xx) as "alive" and only
* a transport/connection failure as "dead" (spec gotcha #1: never `curl -f`;
* the original wrapper spawned duplicate proxies because of this).
* - Auth-status parsing NEVER surfaces OAuth token material — only a coarse
* state + optional expiry — even if a token-shaped string appears in output.
*/
describe('claudex-proxy constants', () => {
it('pins the proxy endpoint to loopback :18765 (spec table)', () => {
expect(CLAUDEX_PROXY_HOST).toBe('127.0.0.1');
expect(CLAUDEX_PROXY_PORT).toBe(18765);
expect(CLAUDEX_PROXY_URL).toBe('http://127.0.0.1:18765');
expect(CLAUDEX_PROXY_BINARY).toBe('claude-code-proxy');
});
it('builds the documented codex subcommand argv', () => {
expect(buildAuthStatusArgs()).toEqual(['codex', 'auth', 'status']);
expect(buildDeviceAuthArgs()).toEqual(['codex', 'auth', 'device']);
expect(buildServeArgs()).toEqual(['serve', '--no-monitor']);
});
});
describe('parseAuthStatus', () => {
it('reports valid on exit 0 with an authenticated marker', () => {
const s = parseAuthStatus({
status: 0,
stdout: 'Authenticated as user; token valid',
stderr: '',
});
expect(s.state).toBe('valid');
});
it('reports expired when output mentions expiry', () => {
const s = parseAuthStatus({ status: 0, stdout: 'Token expired 2 days ago', stderr: '' });
expect(s.state).toBe('expired');
});
it('reports unauthenticated when output says not logged in', () => {
const s = parseAuthStatus({
status: 1,
stdout: '',
stderr: 'not authenticated: run codex auth device',
});
expect(s.state).toBe('unauthenticated');
});
it('reports unknown on an unrecognized non-zero exit', () => {
const s = parseAuthStatus({ status: 2, stdout: 'weird', stderr: '' });
expect(s.state).toBe('unknown');
});
it('extracts a best-effort expiry in days when present', () => {
const s = parseAuthStatus({
status: 0,
stdout: 'Authenticated; expires in 9 days',
stderr: '',
});
expect(s.state).toBe('valid');
expect(s.expiresInDays).toBe(9);
});
it('treats a clean exit 0 with no explicit markers as valid', () => {
const s = parseAuthStatus({ status: 0, stdout: 'Session active for account foo', stderr: '' });
expect(s.state).toBe('valid');
expect(s.expiresInDays).toBeUndefined();
});
it('NEVER retains token-shaped material from output', () => {
const leaky = 'Authenticated. access_token=sk-abc123SECRETdeadbeef refresh_token=rt-9999';
const s: AuthStatus = parseAuthStatus({ status: 0, stdout: leaky, stderr: '' });
const serialized = JSON.stringify(s);
expect(serialized).not.toContain('sk-abc123SECRETdeadbeef');
expect(serialized).not.toContain('rt-9999');
expect(serialized).not.toContain('access_token');
expect(serialized).not.toContain('refresh_token');
});
});
describe('checkAuthStatus', () => {
it('runs the status subcommand and parses the result', () => {
const run = vi.fn(
(_cmd: string, _args: string[]): ProxyRunResult => ({
status: 0,
stdout: 'Authenticated; expires in 7 days',
stderr: '',
}),
);
const s = checkAuthStatus(run);
expect(run).toHaveBeenCalledWith(CLAUDEX_PROXY_BINARY, ['codex', 'auth', 'status']);
expect(s.state).toBe('valid');
expect(s.expiresInDays).toBe(7);
});
it('surfaces unknown when the default runner cannot find the binary', () => {
// Exercises the default spawnSync path against an absent binary: no throw,
// status is non-zero/null → unknown. Deterministic on a box without the proxy.
const s = checkAuthStatus();
expect(['unknown', 'unauthenticated', 'valid', 'expired']).toContain(s.state);
});
});
describe('runDeviceReauth', () => {
it('spawns the device flow with inherited stdio (never captures the code/token)', () => {
const calls: Array<{ cmd: string; args: string[]; opts: { stdio: string } }> = [];
const status = runDeviceReauth((cmd, args, opts) => {
calls.push({ cmd, args, opts });
return { status: 0 };
});
expect(status).toBe(0);
expect(calls).toHaveLength(1);
expect(calls[0]!.cmd).toBe(CLAUDEX_PROXY_BINARY);
expect(calls[0]!.args).toEqual(['codex', 'auth', 'device']);
// stdio 'inherit' is the security-critical bit: the device code streams to
// the user's TTY; the launcher never pipes/captures it.
expect(calls[0]!.opts.stdio).toBe('inherit');
});
it('returns 1 when the child yields no status (absent binary)', () => {
const status = runDeviceReauth(() => ({ status: null }));
expect(status).toBe(1);
});
});
describe('checkProxyBinary', () => {
it('resolves via the default `which` path (proxy absent → null)', () => {
// Covers the default resolver; on CI/dev the proxy is not installed.
const r = checkProxyBinary();
expect(typeof r.present).toBe('boolean');
if (!r.present) expect(r.path).toBeNull();
});
it('reports present with the resolved path', () => {
const r = checkProxyBinary(() => '/home/u/.local/bin/claude-code-proxy');
expect(r.present).toBe(true);
expect(r.path).toBe('/home/u/.local/bin/claude-code-proxy');
});
it('reports absent when the resolver finds nothing', () => {
const r = checkProxyBinary(() => null);
expect(r.present).toBe(false);
expect(r.path).toBeNull();
});
});
describe('probeLiveness (gotcha #1 — any HTTP response is alive)', () => {
it('treats 200 as alive', async () => {
const live = await probeLiveness(CLAUDEX_PROXY_URL, async () => ({ status: 200 }));
expect(live).toBe(true);
});
it('treats a non-2xx (404) response as alive — must NOT behave like curl -f', async () => {
const live = await probeLiveness(CLAUDEX_PROXY_URL, async () => ({ status: 404 }));
expect(live).toBe(true);
});
it('treats a 500 response as alive', async () => {
const live = await probeLiveness(CLAUDEX_PROXY_URL, async () => ({ status: 500 }));
expect(live).toBe(true);
});
it('treats a connection failure (reject) as dead', async () => {
const live = await probeLiveness(CLAUDEX_PROXY_URL, async () => {
throw new Error('ECONNREFUSED');
});
expect(live).toBe(false);
});
it('treats a timeout as dead', async () => {
const never = () => new Promise<{ status?: number }>(() => {});
const live = await probeLiveness(CLAUDEX_PROXY_URL, never, 20);
expect(live).toBe(false);
});
});
describe('buildSystemdUnitContent', () => {
it('emits a user unit that execs the given binary with serve args', () => {
const unit = buildSystemdUnitContent('/home/u/.local/bin/claude-code-proxy');
expect(unit).toContain('[Unit]');
expect(unit).toContain('[Service]');
expect(unit).toContain('[Install]');
expect(unit).toContain('/home/u/.local/bin/claude-code-proxy serve --no-monitor');
expect(unit).toContain('WantedBy=default.target');
});
it('never embeds credential material', () => {
const unit = buildSystemdUnitContent('/home/u/.local/bin/claude-code-proxy');
expect(unit).not.toMatch(/token/i);
expect(unit).not.toMatch(/auth\.json/i);
});
});
describe('systemdUnitPath', () => {
it('targets the systemd --user unit dir', () => {
expect(systemdUnitPath('/home/u')).toBe(
'/home/u/.config/systemd/user/claude-code-proxy.service',
);
});
});
describe('installSystemdUnit', () => {
it('writes the unit and returns true when daemon-reload succeeds', () => {
let written: { path: string; content: string } | null = null;
const ok = installSystemdUnit('/bin/claude-code-proxy', {
home: '/home/u',
writeUnit: (path, content) => {
written = { path, content };
},
run: () => ({ status: 0, stdout: '', stderr: '' }),
});
expect(ok).toBe(true);
expect(written).not.toBeNull();
expect(written!.path).toBe('/home/u/.config/systemd/user/claude-code-proxy.service');
expect(written!.content).toContain('ExecStart=/bin/claude-code-proxy serve --no-monitor');
});
it('returns false when daemon-reload fails (systemd --user unavailable)', () => {
const ok = installSystemdUnit('/bin/claude-code-proxy', {
home: '/home/u',
writeUnit: () => {},
run: () => ({ status: 1, stdout: '', stderr: 'Failed to connect to bus' }),
});
expect(ok).toBe(false);
});
it('returns false when writing the unit throws', () => {
const ok = installSystemdUnit('/bin/claude-code-proxy', {
home: '/home/u',
writeUnit: () => {
throw new Error('EACCES');
},
run: () => ({ status: 0, stdout: '', stderr: '' }),
});
expect(ok).toBe(false);
});
it('writes to a real temp dir via the default writer', () => {
const home = mkdtempSync(join(tmpdir(), 'claudex-unit-'));
try {
const ok = installSystemdUnit('/bin/claude-code-proxy', {
home,
run: () => ({ status: 0, stdout: '', stderr: '' }),
});
expect(ok).toBe(true);
const written = readFileSync(systemdUnitPath(home), 'utf8');
expect(written).toContain('[Service]');
} finally {
rmSync(home, { recursive: true, force: true });
}
});
});
describe('runProxyPreflight', () => {
it('is ok when binary present, auth valid, and proxy live', async () => {
const report = await runProxyPreflight({
checkBinary: () => ({ present: true, path: '/bin/claude-code-proxy' }),
checkAuth: () => ({ state: 'valid' }),
probe: async () => true,
});
expect(report.ok).toBe(true);
expect(report.problems).toEqual([]);
});
it('flags a missing binary', async () => {
const report = await runProxyPreflight({
checkBinary: () => ({ present: false, path: null }),
checkAuth: () => ({ state: 'valid' }),
probe: async () => true,
});
expect(report.ok).toBe(false);
expect(report.problems.some((p) => /binary/i.test(p))).toBe(true);
});
it('flags expired auth (re-auth needed)', async () => {
const report = await runProxyPreflight({
checkBinary: () => ({ present: true, path: '/bin/claude-code-proxy' }),
checkAuth: () => ({ state: 'expired' }),
probe: async () => true,
});
expect(report.ok).toBe(false);
expect(report.needsReauth).toBe(true);
expect(report.problems.some((p) => /auth/i.test(p))).toBe(true);
});
it('flags a dead proxy', async () => {
const report = await runProxyPreflight({
checkBinary: () => ({ present: true, path: '/bin/claude-code-proxy' }),
checkAuth: () => ({ state: 'valid' }),
probe: async () => false,
});
expect(report.ok).toBe(false);
expect(report.live).toBe(false);
});
it('flags an unknown auth state without marking it for re-auth', async () => {
const report = await runProxyPreflight({
checkBinary: () => ({ present: true, path: '/bin/claude-code-proxy' }),
checkAuth: () => ({ state: 'unknown' }),
probe: async () => true,
});
expect(report.ok).toBe(false);
expect(report.needsReauth).toBe(false);
expect(report.problems.some((p) => /could not determine/i.test(p))).toBe(true);
});
it('does not leak token material for any auth state', async () => {
const report = await runProxyPreflight({
checkBinary: () => ({ present: true, path: '/bin/claude-code-proxy' }),
checkAuth: () => ({ state: 'expired' }),
probe: async () => false,
});
expect(JSON.stringify(report)).not.toMatch(/token|sk-|auth\.json/i);
});
it('runs end-to-end with all real defaults (no proxy installed → not ok)', async () => {
// Exercises the default checkBinary/checkAuth/probe closures against a box
// with no proxy: absent binary, spawnSync status, real loopback probe that
// fast-fails with ECONNREFUSED. Asserts shape only (never token material).
const report = await runProxyPreflight();
expect(typeof report.ok).toBe('boolean');
expect(Array.isArray(report.problems)).toBe(true);
expect(['valid', 'expired', 'unauthenticated', 'unknown']).toContain(report.auth.state);
expect(JSON.stringify(report)).not.toMatch(/access_token|refresh_token|sk-/i);
});
});
describe('ensureProxyRunning', () => {
const ok: ProxyRunResult = { status: 0, stdout: '', stderr: '' };
it('is a no-op when the proxy is already live', async () => {
const startSystemd = vi.fn(() => ok);
const startNohup = vi.fn(() => ok);
const r = await ensureProxyRunning({
probe: async () => true,
startSystemd,
startNohup,
waitMs: async () => {},
});
expect(r.method).toBe('already');
expect(r.live).toBe(true);
expect(startSystemd).not.toHaveBeenCalled();
expect(startNohup).not.toHaveBeenCalled();
});
it('starts via systemd when available and then becomes live', async () => {
let calls = 0;
const r = await ensureProxyRunning({
probe: async () => calls++ > 0, // dead first, live after start
startSystemd: () => ok,
startNohup: () => {
throw new Error('should not fall back');
},
waitMs: async () => {},
});
expect(r.method).toBe('systemd');
expect(r.live).toBe(true);
});
it('falls back to nohup when systemd start fails', async () => {
let calls = 0;
const r = await ensureProxyRunning({
// A failed systemd start skips its post-start probe, so probes are:
// #0 initial (dead), #1 after nohup (live).
probe: async () => calls++ > 0,
startSystemd: () => ({ status: 1, stdout: '', stderr: 'no systemd' }),
startNohup: () => ok,
waitMs: async () => {},
});
expect(r.method).toBe('nohup');
expect(r.live).toBe(true);
});
it('reports failed when nothing brings the proxy up', async () => {
const r = await ensureProxyRunning({
probe: async () => false,
startSystemd: () => ({ status: 1, stdout: '', stderr: '' }),
startNohup: () => ({ status: 1, stdout: '', stderr: '' }),
waitMs: async () => {},
});
expect(r.method).toBe('failed');
expect(r.live).toBe(false);
});
});

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/**
* Claudex proxy preflight + lifecycle (P1 of `mosaic yolo claudex`).
*
* `raine/claude-code-proxy` runs a local server on 127.0.0.1:18765 that speaks
* the Anthropic Messages API and translates to the ChatGPT/Codex backend using
* ChatGPT-subscription OAuth. This module owns the *preflight* and *lifecycle*
* concerns for the launcher: is the binary present, is OAuth valid, is the proxy
* listening, and — if not — bring it up (systemd user unit preferred, nohup
* fallback).
*
* Design: every function is pure or dependency-injected so the launch path is
* fully unit-testable without touching a real process, socket, or the OAuth
* token. Nothing here reads `~/.config/claude-code-proxy/codex/auth.json`; the
* proxy holds the real credential and Claude Code only ever sees
* `ANTHROPIC_AUTH_TOKEN=unused`. Parsed auth status is deliberately coarse
* (state + optional expiry) so no token material can be retained or surfaced.
*/
import { execFileSync, spawn, spawnSync } from 'node:child_process';
import { mkdirSync, writeFileSync } from 'node:fs';
import { homedir } from 'node:os';
import { dirname, join } from 'node:path';
// ─── Endpoint / command constants (spec table) ──────────────────────────────
export const CLAUDEX_PROXY_HOST = '127.0.0.1';
export const CLAUDEX_PROXY_PORT = 18765;
export const CLAUDEX_PROXY_URL = `http://${CLAUDEX_PROXY_HOST}:${CLAUDEX_PROXY_PORT}`;
export const CLAUDEX_PROXY_BINARY = 'claude-code-proxy';
export const CLAUDEX_SYSTEMD_UNIT = 'claude-code-proxy.service';
/** argv for `claude-code-proxy codex auth status`. */
export function buildAuthStatusArgs(): string[] {
return ['codex', 'auth', 'status'];
}
/** argv for `claude-code-proxy codex auth device` (device-code re-auth flow). */
export function buildDeviceAuthArgs(): string[] {
return ['codex', 'auth', 'device'];
}
/** argv for `claude-code-proxy serve --no-monitor`. */
export function buildServeArgs(): string[] {
return ['serve', '--no-monitor'];
}
// ─── Types ──────────────────────────────────────────────────────────────────
export type AuthState = 'valid' | 'expired' | 'unauthenticated' | 'unknown';
/**
* Coarse OAuth status. Intentionally carries NO token material — only a state
* and an optional best-effort expiry-in-days for user-facing messaging.
*/
export interface AuthStatus {
state: AuthState;
expiresInDays?: number;
}
export interface ProxyRunResult {
status: number | null;
stdout: string;
stderr: string;
}
/** Runs a command synchronously and returns its captured result. */
export type CommandRunner = (cmd: string, args: string[]) => ProxyRunResult;
/** Minimal fetch shape used for the liveness probe (any HTTP response = alive). */
export type FetchLike = (
url: string,
init?: { signal?: AbortSignal },
) => Promise<{ status?: number }>;
// ─── Binary presence ─────────────────────────────────────────────────────────
function defaultWhich(cmd: string): string | null {
try {
return execFileSync('which', [cmd], { encoding: 'utf8' }).trim() || null;
} catch {
return null;
}
}
export function checkProxyBinary(resolve: (cmd: string) => string | null = defaultWhich): {
present: boolean;
path: string | null;
} {
const path = resolve(CLAUDEX_PROXY_BINARY);
return { present: path !== null && path !== '', path: path || null };
}
// ─── Auth status ─────────────────────────────────────────────────────────────
/**
* Parse `claude-code-proxy codex auth status` output into a coarse state.
*
* The proxy's exact wording is not contractually pinned, so this matches
* tolerantly on well-known markers and falls back on the exit code. It never
* copies the raw output onto the result — only a state and an optional expiry —
* so token-shaped strings in the output cannot leak downstream.
*/
export function parseAuthStatus(result: ProxyRunResult): AuthStatus {
const text = `${result.stdout}\n${result.stderr}`.toLowerCase();
const expired = /\bexpired\b|token has expired|expires?d? \d+ days? ago/.test(text);
const unauth =
/not authenticated|not logged in|no (?:auth|credentials|token)|please (?:log ?in|authenticate)|run .*auth device/.test(
text,
);
const authed = /\bauthenticated\b|logged in|token valid|valid until|expires? in/.test(text);
let state: AuthState;
if (expired) {
state = 'expired';
} else if (unauth) {
state = 'unauthenticated';
} else if (authed && (result.status === 0 || result.status === null)) {
state = 'valid';
} else if (result.status === 0) {
state = 'valid';
} else {
state = 'unknown';
}
const status: AuthStatus = { state };
const days = /expires? in (\d+) days?/.exec(text);
if (state === 'valid' && days) {
status.expiresInDays = Number(days[1]);
}
return status;
}
function defaultRun(cmd: string, args: string[]): ProxyRunResult {
const r = spawnSync(cmd, args, { encoding: 'utf8' });
return { status: r.status, stdout: r.stdout ?? '', stderr: r.stderr ?? '' };
}
export function checkAuthStatus(run: CommandRunner = defaultRun): AuthStatus {
return parseAuthStatus(run(CLAUDEX_PROXY_BINARY, buildAuthStatusArgs()));
}
/** Spawn shape for the interactive device re-auth flow. */
export type InheritSpawn = (
cmd: string,
args: string[],
opts: { stdio: 'inherit' },
) => { status: number | null };
function defaultInheritSpawn(cmd: string, args: string[], opts: { stdio: 'inherit' }) {
return spawnSync(cmd, args, opts);
}
/**
* Run the device-code re-auth flow (`claude-code-proxy codex auth device`).
*
* Deliberately `stdio: 'inherit'` so the device code the proxy prints goes
* straight to the user's terminal — the launcher NEVER captures, stores, or logs
* it, and never observes the resulting OAuth token (the proxy persists that to
* its own config). Returns the child's exit status; 1 on an absent binary.
*/
export function runDeviceReauth(spawnImpl: InheritSpawn = defaultInheritSpawn): number {
const r = spawnImpl(CLAUDEX_PROXY_BINARY, buildDeviceAuthArgs(), { stdio: 'inherit' });
return r.status ?? 1;
}
// ─── Liveness (gotcha #1: any HTTP response is alive, NEVER `curl -f`) ────────
/**
* Probe the proxy for liveness. ANY resolved HTTP response — including non-2xx —
* means the proxy is up; only a transport/connection failure or a timeout means
* it is down. This is the whole point of gotcha #1: the proxy's root path
* returns non-2xx, so a `curl -f`-style check reports it dead and spawns a
* duplicate proxy.
*/
export async function probeLiveness(
url: string = CLAUDEX_PROXY_URL,
fetchImpl: FetchLike = fetch as unknown as FetchLike,
timeoutMs = 1500,
): Promise<boolean> {
const controller = new AbortController();
let timer: ReturnType<typeof setTimeout> | undefined;
// Bound the probe with our own timeout race rather than trusting the fetch
// implementation to honor the abort signal — a hung socket (or a fetch that
// ignores the signal) must never wedge the launcher. We still abort() so a
// signal-aware fetch tears the request down promptly.
const timeout = new Promise<boolean>((resolve) => {
timer = setTimeout(() => {
controller.abort();
resolve(false);
}, timeoutMs);
});
const probe = fetchImpl(url, { signal: controller.signal })
.then(() => true) // any response at all → alive
.catch(() => false); // connection refused / aborted → dead
try {
return await Promise.race([probe, timeout]);
} finally {
if (timer) clearTimeout(timer);
}
}
// ─── systemd user unit ───────────────────────────────────────────────────────
export function systemdUnitPath(home: string = homedir()): string {
return join(home, '.config', 'systemd', 'user', CLAUDEX_SYSTEMD_UNIT);
}
/**
* Render the `claude-code-proxy.service` user unit. Contains no credential
* material — the proxy reads its own OAuth token from its config dir at runtime.
*/
export function buildSystemdUnitContent(binaryPath: string): string {
const exec = `${binaryPath} ${buildServeArgs().join(' ')}`;
return [
'[Unit]',
'Description=claude-code-proxy (Anthropic->Codex translation proxy for mosaic claudex)',
'After=network-online.target',
'Wants=network-online.target',
'',
'[Service]',
'Type=simple',
`ExecStart=${exec}`,
'Restart=on-failure',
'RestartSec=2',
'',
'[Install]',
'WantedBy=default.target',
'',
].join('\n');
}
/**
* Write the user unit and reload the systemd --user daemon. Returns false when
* systemd --user is unavailable (the caller then falls back to nohup).
*/
export function installSystemdUnit(
binaryPath: string,
deps: {
home?: string;
writeUnit?: (path: string, content: string) => void;
run?: CommandRunner;
} = {},
): boolean {
const home = deps.home ?? homedir();
const write =
deps.writeUnit ??
((path: string, content: string) => {
mkdirSync(dirname(path), { recursive: true });
writeFileSync(path, content);
});
const run = deps.run ?? defaultRun;
try {
write(systemdUnitPath(home), buildSystemdUnitContent(binaryPath));
const reload = run('systemctl', ['--user', 'daemon-reload']);
return reload.status === 0;
} catch {
return false;
}
}
// ─── Preflight report ────────────────────────────────────────────────────────
export interface PreflightReport {
binaryPresent: boolean;
binaryPath: string | null;
auth: AuthStatus;
live: boolean;
needsReauth: boolean;
ok: boolean;
problems: string[];
}
export interface PreflightDeps {
checkBinary?: () => { present: boolean; path: string | null };
checkAuth?: () => AuthStatus;
probe?: () => Promise<boolean>;
}
/**
* Compose the three preflight checks into a single structured report. `ok` is
* true only when the binary is present, OAuth is valid, and the proxy responds.
*/
export async function runProxyPreflight(deps: PreflightDeps = {}): Promise<PreflightReport> {
const checkBinary = deps.checkBinary ?? (() => checkProxyBinary());
const checkAuth = deps.checkAuth ?? (() => checkAuthStatus());
const probe = deps.probe ?? (() => probeLiveness());
const bin = checkBinary();
const auth = checkAuth();
const live = await probe();
const problems: string[] = [];
if (!bin.present) {
problems.push(
`claude-code-proxy binary not found in PATH. Install it before launching claudex.`,
);
}
const needsReauth = auth.state === 'expired' || auth.state === 'unauthenticated';
if (needsReauth) {
problems.push(
`claude-code-proxy OAuth is ${auth.state}. Re-auth with: ${CLAUDEX_PROXY_BINARY} ${buildDeviceAuthArgs().join(' ')}`,
);
} else if (auth.state === 'unknown') {
problems.push('Could not determine claude-code-proxy OAuth status.');
}
if (!live) {
problems.push(`No proxy responding on ${CLAUDEX_PROXY_URL}.`);
}
const ok = bin.present && auth.state === 'valid' && live;
return {
binaryPresent: bin.present,
binaryPath: bin.path,
auth,
live,
needsReauth,
ok,
problems,
};
}
// ─── Lifecycle: ensure the proxy is running ──────────────────────────────────
export type ProxyStartMethod = 'already' | 'systemd' | 'nohup' | 'failed';
export interface EnsureProxyResult {
live: boolean;
method: ProxyStartMethod;
}
export interface EnsureProxyDeps {
probe?: () => Promise<boolean>;
startSystemd?: () => ProxyRunResult;
startNohup?: () => ProxyRunResult;
waitMs?: (ms: number) => Promise<void>;
settleMs?: number;
}
function defaultWait(ms: number): Promise<void> {
return new Promise((resolve) => setTimeout(resolve, ms));
}
function defaultStartSystemd(): ProxyRunResult {
return defaultRun('systemctl', ['--user', 'start', CLAUDEX_SYSTEMD_UNIT]);
}
function defaultStartNohup(): ProxyRunResult {
try {
const bin = checkProxyBinary().path ?? CLAUDEX_PROXY_BINARY;
const child = spawn(bin, buildServeArgs(), {
detached: true,
stdio: 'ignore',
});
child.unref();
return { status: 0, stdout: '', stderr: '' };
} catch (err) {
return { status: 1, stdout: '', stderr: err instanceof Error ? err.message : String(err) };
}
}
/**
* Ensure a proxy is listening. No-op when already live. Otherwise prefer the
* systemd user unit, then fall back to a detached background process. Re-probes
* after each start attempt (respecting gotcha #1 via {@link probeLiveness}), so
* it never spawns a duplicate proxy.
*/
export async function ensureProxyRunning(deps: EnsureProxyDeps = {}): Promise<EnsureProxyResult> {
const probe = deps.probe ?? (() => probeLiveness());
const startSystemd = deps.startSystemd ?? defaultStartSystemd;
const startNohup = deps.startNohup ?? defaultStartNohup;
const waitMs = deps.waitMs ?? defaultWait;
const settleMs = deps.settleMs ?? 500;
if (await probe()) {
return { live: true, method: 'already' };
}
const systemd = startSystemd();
if (systemd.status === 0) {
await waitMs(settleMs);
if (await probe()) {
return { live: true, method: 'systemd' };
}
}
const nohup = startNohup();
if (nohup.status === 0) {
await waitMs(settleMs);
if (await probe()) {
return { live: true, method: 'nohup' };
}
}
return { live: false, method: 'failed' };
}