foundation/bootstrap/components/credentials.ts

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// components/credentials.ts
//
// CONTRACT_002 single owner of credential GENERATION + Vault distribution.
//
// Generation (`generateCredentials`) is pure @pulumi/random — no Vault, no
// network — so it can be created in Phase 3 and consumed by the data-plane
// components (postgres.ts needs its password at container boot). Distribution
// (`writeCredentialsToVault`, T06) is the half that depends on Vault being
// unsealed (Gate A); it writes every value to the KV paths in CONTRACT_002 §2.3.
// Splitting the two halves resolves the ordering tension between "Postgres up in
// Phase 3" and "secrets in Vault in Phase 5" without giving up single ownership.
//
// camelCase keys, no exceptions (CONTRACT_002 §2.2): the Vault write JSON-encodes
// these objects, so the key names ARE the camelCase Vault keys downstream reads.
import * as pulumi from "@pulumi/pulumi";
import * as command from "@pulumi/command";
import { RandomPassword } from "@pulumi/random";
import { DeployCtx } from "../lib/context";
import { vmConnection } from "../lib/remote";
import { VaultOutputs } from "./vault";
/** `foundation/postgres/service-credentials` (CONTRACT_002 §2.3). */
export interface PostgresCredentials {
superUser: string; // "postgres" — image default superuser (deterministic)
superPassword: pulumi.Output<string>;
forgejoDbUser: string; // "forgejo" (deterministic)
forgejoDbPassword: pulumi.Output<string>;
}
/** `foundation/rustfs/service-credentials` (CONTRACT_002 §2.3). */
export interface RustfsCredentials {
adminUser: string; // "rustfsadmin" — root access key name (deterministic)
adminPassword: pulumi.Output<string>; // root secret key (RUSTFS_SECRET_KEY)
serviceKeyId: pulumi.Output<string>; // scoped S3 key Forgejo/backup use
serviceKeySecret: pulumi.Output<string>;
}
/** Everything generateCredentials() produces; grows as Wave-2 tasks land. */
export interface FoundationCredentials {
postgres: PostgresCredentials;
rustfs: RustfsCredentials;
}
/**
* High-entropy alphanumeric secret. special:false keeps values safe to drop into
* connection strings / app.ini / psql literals without escaping (len 28 166 bits).
*/
function secret(name: string, length = 28): pulumi.Output<string> {
return new RandomPassword(name, { length, special: false }).result;
}
/** Generate all egg credentials (pure; no dependencies). CONTRACT_002 writer. */
export function generateCredentials(ctx: DeployCtx): FoundationCredentials {
return {
postgres: {
superUser: "postgres",
superPassword: secret("postgres-super-password"),
forgejoDbUser: "forgejo",
forgejoDbPassword: secret("forgejo-db-password"),
},
rustfs: {
adminUser: "rustfsadmin",
adminPassword: secret("rustfs-admin-password"),
serviceKeyId: secret("rustfs-service-key-id", 20), // S3 access-key id
serviceKeySecret: secret("rustfs-service-key-secret", 40), // S3 secret
},
};
}
// Writes the generated data-plane credentials into Vault KV v2 at the CONTRACT_002
// paths. Like every control-plane op the egg can't reach 8200 directly, so this
// runs `vault kv put` inside foundation-vault over SSH (ADR-007). Secret VALUES go
// in as a JSON object on the container's stdin (never in argv); the root token
// authenticates via -e (transient, VM-trusted). Idempotent: kv-v2 enable is
// guarded and `vault kv put` overwrites. Forgejo crypto secrets, the runner token,
// registry tokens, and backup creds are written by their own tasks (T08/T10/T12) —
// this is the Phase-5 data-plane slice. dependsOn vault.init = GATE A.
const WRITE_CREDS = `set -eu
IFS= read -r ROOT_TOKEN
IFS= read -r PG_SUPER_PW
IFS= read -r PG_FORGEJO_PW
IFS= read -r RUSTFS_ADMIN_PW
IFS= read -r RUSTFS_SVC_ID
IFS= read -r RUSTFS_SVC_SECRET
C=foundation-vault
VE="-e VAULT_ADDR=http://127.0.0.1:8200 -e VAULT_TOKEN=$ROOT_TOKEN"
if ! docker exec $VE "$C" vault secrets list -format=json 2>/dev/null | jq -e 'has("foundation/")' >/dev/null; then
docker exec $VE "$C" vault secrets enable -path=foundation kv-v2 >/dev/null
fi
put() { docker exec -i $VE "$C" vault kv put "foundation/$1" - >/dev/null; }
jq -n --arg u "$PG_SUPER_USER" --arg p "$PG_SUPER_PW" --arg fu "$PG_FORGEJO_USER" --arg fp "$PG_FORGEJO_PW" \
'{postgresSuperUser:$u,postgresSuperPassword:$p,forgejoDbUser:$fu,forgejoDbPassword:$fp}' \
| put postgres/service-credentials
jq -n --arg u "$RUSTFS_ADMIN_USER" --arg p "$RUSTFS_ADMIN_PW" --arg ki "$RUSTFS_SVC_ID" --arg ks "$RUSTFS_SVC_SECRET" \
'{rustfsAdminUser:$u,rustfsAdminPassword:$p,rustfsServiceKeyId:$ki,rustfsServiceKeySecret:$ks}' \
| put rustfs/service-credentials
echo "vault: wrote postgres + rustfs service-credentials"`;
/**
* T06 distribute the generated data-plane credentials into Vault (CONTRACT_002).
* Depends on Vault being unsealed (GATE A) via vault.init.
*/
export function writeCredentialsToVault(
ctx: DeployCtx,
creds: FoundationCredentials,
vault: VaultOutputs,
): command.remote.Command {
// Non-secret usernames are prepended as shell vars; the 6 secret values (root
// token first, then the order the script `read`s them) arrive on stdin.
const create = pulumi.interpolate`PG_SUPER_USER='${creds.postgres.superUser}'
PG_FORGEJO_USER='${creds.postgres.forgejoDbUser}'
RUSTFS_ADMIN_USER='${creds.rustfs.adminUser}'
${WRITE_CREDS}`;
return new command.remote.Command(
"foundation-vault-credentials",
{
connection: vmConnection(ctx),
create,
update: create,
stdin: pulumi.interpolate`${vault.rootToken}
${creds.postgres.superPassword}
${creds.postgres.forgejoDbPassword}
${creds.rustfs.adminPassword}
${creds.rustfs.serviceKeyId}
${creds.rustfs.serviceKeySecret}
`,
addPreviousOutputInEnv: false,
triggers: [
vault.init.id,
creds.postgres.superPassword,
creds.postgres.forgejoDbPassword,
creds.rustfs.adminPassword,
creds.rustfs.serviceKeyId,
creds.rustfs.serviceKeySecret,
],
},
{ dependsOn: [vault.init] },
);
}