foundation/bootstrap/index.ts

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// index.ts — foundation bootstrap entrypoint (the egg, PLAN-002 §0, Layer 0).
//
// Phase orchestration (PLAN-002 §2, §5). Components are created against the shared
// provider + foundation-net (ADR-006); GATES between phases are Pulumi dependsOn
// edges, NOT imperative sequencing, so `pulumi up` derives the order. Wave-2+ tasks
// fill the marked slots — this file is the single composition point; components stay
// pure factories in components/*.
import { loadConfig } from "./config";
import { buildBaseContext, DeployCtx } from "./lib/context";
import { deployNetwork } from "./components/network";
import { deployDns } from "./components/dns";
import {
generateCredentials,
writeCredentialsToVault,
} from "./components/credentials";
import { deployPostgres } from "./components/postgres";
import { deployRustfs } from "./components/rustfs";
import { deployVault } from "./components/vault";
import { deployProxy } from "./components/proxy";
const cfg = loadConfig();
// --- shared substrate: provider + network (always first) ---
const base = buildBaseContext(cfg);
const network = deployNetwork(base);
const ctx: DeployCtx = { ...base, network };
// --- public DNS records → the VM (independent of the container plane) ---
const dnsRecords = deployDns(ctx);
export const dnsHosts = dnsRecords.map((r) => r.name);
// --- credentials: generation is pure (no deps); Vault distribution is T06 ---
const credentials = generateCredentials(ctx);
// =============================================================================
// PHASE 3 — DATA PLANE (depends on: network)
// T03 postgres ✓ · T04 rustfs ✓ · T05 vault ✓
// -----------------------------------------------------------------------------
const postgres = deployPostgres(ctx, credentials.postgres);
const rustfs = deployRustfs(ctx, credentials.rustfs);
const vault = deployVault(ctx);
// --- GATE A: Vault init + unseal (T05). T06 writes the generated data-plane creds
// into Vault (CONTRACT_002), dependsOn vault.init so it runs only once unsealed.
const vaultCreds = writeCredentialsToVault(ctx, credentials, vault);
// =============================================================================
// PHASE 6 — FORGE (depends on: credentials, GATE A)
// T07 caddy ✓ · T08 forgejo · T10 runner
// -----------------------------------------------------------------------------
const proxy = deployProxy(ctx);
// const forgejo = deployForgejo(ctx, { postgres, rustfs, credentials, proxy });
// --- GATE B: Forgejo healthy → handover (T11) + runner registration (T10).
// const runner = deployRunner(ctx, { forgejo, credentials });
// =============================================================================
// Stack outputs (extended as phases land).
// vaultCreds (T06) is a gate for Forgejo (T08) — it has no output to export yet.
void vaultCreds;
export const phase = "T07-caddy"; // data-plane + creds + public ingress (Caddy)
export const caddyImageId = proxy.imageId;
export const networkName = network.name;
export const vmTarget = `${cfg.vm.user}@${cfg.vm.host}`;
export const postgresEndpoint = postgres.endpoint;
export const rustfsEndpoint = rustfs.endpoint;
export const vaultEndpoint = vault.endpoint;
// Captured by run.sh into vaultCredentials:* (passphrase-encrypted config) after
// `up` — the one bootstrap secret that cannot live in Vault (CONTRACT_002 §2.4).
export const vaultUnsealKeys = vault.unsealKeys;
export const vaultRootToken = vault.rootToken;
export const enabledFeatures = Object.entries(cfg.features)
.filter(([, on]) => on)
.map(([name]) => name);