Files
mxaccessgw/docs/Authentication.md
T
Joseph Doherty 06e1046317 docs(archreview): P2 doc-drift sweep (IPC-06/07/17/21, SEC-09/22, CLI-12/16, TST-13)
Reconcile load-bearing docs with shipped behavior:
- IPC-06: gateway.md Worker Envelope sketch -> points to mxaccess_worker.proto
  as source of truth (string correlation_id, real oneof arms incl.
  worker_shutdown_ack/worker_ready).
- IPC-07: docs/Grpc.md six RPCs -> seven; document QueryActiveAlarms handler
  + validation row.
- IPC-21: gateway.md Session RPC moved from live API into a 'Future work: not
  implemented' subsection.
- TST-13: drop stale design-era sketches from gateway.md; correct the
  single-subscriber-default (config-gated fan-out) note.
- SEC-09: dashboard GroupToRole sample GwAdmin:Admin -> Administrator so it
  passes GatewayOptionsValidator; clarify Administrator is the canonical role.
- SEC-22: rewrite docs/Authentication.md to the pipeline that actually ships
  (ZB.MOM.WW.Auth.ApiKeys package + gateway-owned CachingApiKeyVerifier,
  CoalescingMarkApiKeyStore, CanonicalForwardingApiKeyAuditStore, etc.);
  remove 18 stale type names (grep-verified absent).
- IPC-17: correct wrong Python generated dir (mxgateway -> zb_mom_ww_mxgateway)
  in CLAUDE.md + 3 docs.
- CLI-12: Java docs Java 21 -> Java 17 (JDK17 retarget for Ignition 8.3).
- CLI-16: docs/ClientPackaging.md reconciled with real .slnx, Python package
  name, and gradle project names; fix stale generateProto task name.

Docs-only; type/path/version claims verified against source.

Claude-Session: https://claude.ai/code/session_01DMXXvNuPekkkrTEyPNxEkW
2026-07-09 14:46:15 -04:00

15 KiB

Gateway Authentication

The gateway authenticates inbound gRPC callers with API keys: a bearer token is parsed, its secret is hashed with a peppered HMAC and compared in constant time against a stored hash, and administrative and verification events are recorded to an audit trail.

The peppered-HMAC pipeline itself — token parsing, secret generation, hashing, constant-time compare, the SQLite schema, the key store, the verifier, and schema migration — lives in the shared ZB.MOM.WW.Auth.ApiKeys package, of which this gateway is the donor. The gateway does not reimplement or fork those types; it binds the library through AddZbApiKeyAuth and layers gateway-specific concerns on top: constraint enforcement, the gRPC authorization interceptor, hot-path decorators, the admin CLI, the dashboard, and a canonical audit store that supersedes the library's own audit table. This document describes the consumer side — the token format, the options the gateway binds, the pieces it adds, and where the library boundary sits. For the library internals (the concrete ApiKeyVerifier, the SQLite stores, the schema and migrator), read the ZB.MOM.WW.Auth.ApiKeys sources; they are not duplicated in this repository.

Token Format

API keys travel in the HTTP Authorization header as a bearer token shaped mxgw_<keyId>_<secret>. The mxgw_ prefix scopes parsing to gateway tokens, the <keyId> segment is the public identifier used for lookup, and <secret> is the high-entropy portion verified against a stored hash. The prefix and the pepper configuration key the gateway pins are constants on AuthStoreServiceCollectionExtensions (TokenPrefix = "mxgw", PepperSecretName = "MxGateway:ApiKeyPepper"); they are supplied to the library at registration so the library's parser and pepper provider use the gateway's contract. The library parser rejects a malformed token before any database round-trip, and only a well-formed mxgw_<keyId>_<secret> token reaches the store lookup.

Secrets And Peppered Hashing

New secret material is high-entropy: the library generates 32 random bytes and encodes them URL-safe base64 (no padding) so a secret embeds in a header without escaping. The gateway never persists a plaintext secret — only its hash.

Secrets are hashed with HMAC-SHA256 keyed by a server-side pepper. The pepper lives outside the database and is resolved from configuration under the MxGateway:ApiKeyPepper key (the library's pepper provider reads it). Keeping the pepper out of the SQLite file means an attacker who exfiltrates only the database holds the hashes but lacks the keying material to brute-force candidate secrets, even if the hash algorithm is known.

When the pepper is not configured, the library surfaces the failure as an InvalidOperationException whose message reports the pepper is unavailable rather than persisting a key with an unkeyed hash. The dashboard management path (DashboardApiKeyManagementService) catches that condition and returns the friendly "API key pepper is not configured." result instead of faulting the Blazor circuit; it currently matches on the message text, so a library wording change would need to be reflected there (a typed pepper-unavailable exception is a pending library improvement).

Verification

The gateway consumes the library's IApiKeyVerifier from GatewayGrpcAuthorizationInterceptor. The verifier's flow is:

  1. Parse the Authorization header into the key id and presented secret.
  2. Look up the stored key record by key id.
  3. Reject a revoked record, and reject an expired record whose ExpiresUtc is in the past. Expiry is opt-in — keys created without an expiry never expire; an expired key fails opaquely, indistinguishable to the client from any other auth failure.
  4. Hash the presented secret with the configured pepper.
  5. Compare hashes in constant time to avoid a timing oracle.
  6. Stamp a LastUsedUtc timestamp and return a shared ApiKeyIdentity carrying the key id, key prefix, display name, scopes, and the opaque constraints JSON.

A verification failure is opaque to the client: the interceptor returns Unauthenticated/PermissionDenied without disclosing which check failed, while the failure detail is available server-side for audit.

GatewayApiKeyIdentityMapper.ToGatewayIdentity maps the library's shared ApiKeyIdentity onto the gateway's own ApiKeyIdentity (Security/Authentication/ApiKeyIdentity.cs), which exposes the deserialized ApiKeyConstraints — parsed from the opaque constraints JSON via ApiKeyConstraintSerializer — that the downstream ConstraintEnforcer and the request-identity accessor enforce. The gateway identity exposes only non-secret fields (KeyId, KeyPrefix, DisplayName, Scopes, Constraints).

Hot-path caching and last-used coalescing

Left unmediated, every authenticated gRPC call costs a SQLite read plus a last_used_utc write (the library verifier couples MarkUsed into VerifyAsync), which makes the auth store the throughput ceiling on the bulk-read workload. The gateway layers two decorators over the shared library's registrations (in AuthStoreServiceCollectionExtensions) — it does not edit the library:

  • CachingApiKeyVerifier wraps the library IApiKeyVerifier with an IMemoryCache entry per successful verification, keyed on a SHA-256 hash of the presented token (never the plaintext secret). A cache hit within MxGateway:Security:ApiKeyVerificationCacheSeconds (default 15 s) returns the cached result without touching the store, so both the read and the coupled write are skipped. Only successes are cached; failures always reach the inner verifier. On a gateway-initiated revoke/rotate/delete the dashboard admin service calls IApiKeyCacheInvalidator.Invalidate(keyId), evicting the cached entry immediately. The short TTL is the backstop for out-of-band mutations (a direct DB edit, or a revoke run by the separate apikey CLI process, whose in-memory cache is not the running gateway's cache).
  • CoalescingMarkApiKeyStore wraps the library IApiKeyStore and forwards at most one MarkUsed write per key per MxGateway:Security:ApiKeyLastUsedCoalesceSeconds (default 60 s), so even under a cache miss the last_used_utc write is bounded to roughly one per key per minute rather than one per RPC. last_used_utc is a coarse staleness hint, not an audit record (audit rows are written separately), so bounded staleness of up to one window is acceptable.

GatewayApiKeyIdentityMapper additionally memoizes the constraints-JSON deserialization by blob, so the per-call parse on the mapped identity collapses to a dictionary lookup. Both windows are configurable and may be set to 0 to disable the respective mechanism; see GatewayConfiguration.

Storage

API-key state lives in a dedicated SQLite database owned by the shared library. SQLite is sufficient because credential volume is small, the gateway runs as a single process, and the file is straightforward to back up and rotate independently of the main application data.

The database path is GatewayOptions.Authentication.SqlitePath. Its code default is derived from Environment.GetFolderPath(SpecialFolder.CommonApplicationData) (C:\ProgramData\MxGateway\gateway-auth.db on Windows, /usr/share/MxGateway/gateway-auth.db or the container equivalent elsewhere) so the credential store is never written relative to the launch working directory on a non-Windows host. The production hosts pin the explicit Windows path in appsettings.json. GatewayOptionsValidator rejects a non-rooted (relative) SqlitePath so a bad override fails fast at startup rather than scattering the store by launch CWD (SEC-01).

The library owns the SQLite schema and connection factory. The api_keys table carries the key id, key prefix, secret-hash blob, display name, serialized scopes, optional serialized constraints, and the created_utc, last_used_utc, revoked_utc, and expires_utc timestamps. Because the schema, stores, and migrator belong to ZB.MOM.WW.Auth.ApiKeys, this document does not restate their column readers or SQL; consult the library for that detail.

Audit trail

The library emits its own API-key audit entries (from the admin verbs — create, revoke, rotate, init-db, and constraint denials), but the gateway overrides the library's IApiKeyAuditStore registration with CanonicalForwardingApiKeyAuditStore. That adapter canonicalizes every library-emitted ApiKeyAuditEntry onto the gateway's AuditEvent shape and routes it through IAuditWriter (CanonicalAuditWriter) into SqliteCanonicalAuditStore, which persists to a single audit_event table (columns event_id, occurred_at_utc, actor, action, outcome, category, target, source_node, correlation_id, details_json). Reads for the dashboard "recent audit" view go back through the same adapter, which maps audit_event rows back to ApiKeyAuditEntry values so the existing view keeps working unchanged.

Consequently the library's own api_key_audit table is left in place but unused after adoption — nothing writes to it once the override is registered. The canonical audit_event table is the single durable record of both API-key administrative actions and the dashboard's own audit vocabulary (dashboard-create-key, dashboard-rotate-key, dashboard-revoke-key, dashboard-delete-key, and the session Close/Kill actions). This is why any prose that describes credential audits as landing in api_key_audit is stale: the canonical store is audit_event.

Registration

AuthStoreServiceCollectionExtensions.AddSqliteAuthStore(IConfiguration) wires the whole subsystem. It does not register the library types directly — it delegates to the shared provider and then layers the gateway concerns:

public static IServiceCollection AddSqliteAuthStore(
    this IServiceCollection services,
    IConfiguration configuration)
{
    // Pin the gateway's token prefix ("mxgw") and pepper key ("MxGateway:ApiKeyPepper")
    // as fallback defaults UNDER the supplied configuration, then register the shared
    // provider: it binds ApiKeyOptions from MxGateway:Authentication and wires the SQLite
    // stores, the configuration-backed pepper provider, the verifier, the migrator, and
    // the migration hosted service.
    services.AddZbApiKeyAuth(effectiveConfig, AuthenticationSectionPath);

    // SEC-08 hot-path decorators layered over the library registrations.
    services.AddMemoryCache();
    // CoalescingMarkApiKeyStore decorates IApiKeyStore; CachingApiKeyVerifier decorates
    // IApiKeyVerifier and also serves as IApiKeyCacheInvalidator.

    // Canonical audit: override the library's IApiKeyAuditStore so every API-key audit
    // event is forwarded through IAuditWriter into the audit_event table.
    services.AddSingleton<IApiKeyAuditStore, CanonicalForwardingApiKeyAuditStore>();

    // The shared admin command set (ApiKeyAdminCommands) and the gateway CLI runner.
    services.AddSingleton<ApiKeyAdminCliRunner>();

    return services;
}

The decorators wrap the library's last registration for each interface rather than replacing the library types, preserving singleton semantics; the audit override is registered after AddZbApiKeyAuth so it wins as the resolved IApiKeyAuditStore.

Admin CLI

ApiKeyAdminCommandLineParser.Parse recognises a leading apikey argument and dispatches to one of the subcommands declared by ApiKeyAdminCommandKind. Each parsed invocation produces an ApiKeyAdminCommand (or an ApiKeyAdminParseResult carrying an error). ApiKeyAdminCliRunner then runs the migrator, invokes the shared ApiKeyAdminCommands verb, and writes text or JSON output via ApiKeyAdminOutput. The returned ApiKeyAdminListedKey projection deliberately omits the secret hash so listing a database never surfaces hash material.

The supported subcommands match ApiKeyAdminCommandKind exactly:

Subcommand Required options Behaviour
init-db none Runs the migrator and records an audit entry.
create-key --key-id, --display-name Generates a new secret, stores its peppered hash and optional constraints, and prints the assembled mxgw_<keyId>_<secret> token. Optional --expires sets an expiry (absolute ISO-8601 UTC, or a relative <N>d/<N>h from now); omit it for a non-expiring key.
list-keys none Lists every stored key with its scopes, constraints, revocation state, and expiry (active/expired/revoked).
revoke-key --key-id Marks the key revoked if it is currently active.
rotate-key --key-id Replaces the secret hash and prints the new token.

Examples:

mxgateway apikey init-db
mxgateway apikey create-key --key-id ops.alice --display-name "Alice (ops)" --scopes read,write
mxgateway apikey create-key --key-id area1.reader --display-name "Area 1 reader" --scopes invoke:read,metadata:read --read-subtree "Area1/*" --browse-subtree "Area1/*"
mxgateway apikey create-key --key-id ops.temp --display-name "Temp contractor" --scopes invoke:read --expires 90d
mxgateway apikey create-key --key-id ops.audit --display-name "Audit window" --scopes metadata:read --expires 2027-01-01T00:00:00Z
mxgateway apikey list-keys --json
mxgateway apikey revoke-key --key-id ops.alice
mxgateway apikey rotate-key --key-id ops.alice

Constraint flags are optional. --read-subtree, --write-subtree, --read-tag-glob, --write-tag-glob, and --browse-subtree are repeatable. --max-write-classification accepts one integer. --read-alarm-only and --read-historized-only are boolean flags. Existing rows with null constraints remain fully unconstrained after migration.

Key ids are restricted by the parser to ASCII letters, digits, periods, and hyphens so they remain safe to embed in the token format and in URL paths used by administrative tooling.

The CLI is not the only management surface: the dashboard API Keys page creates, rotates, revokes, and deletes (revoked-only) keys through the same shared admin command set. Every destructive dashboard action is gated by a confirmation dialog and emits its own audit event (dashboard-create-key, dashboard-rotate-key, dashboard-revoke-key, dashboard-delete-key) into the canonical audit_event store. The page also surfaces expiry: each row shows an Expires column (Never when unset) and a status badge that reads Expired, Expiring (within seven days), Revoked, or Active. This staleness surfacing is display-only; expiry is set at creation time via apikey create-key --expires, not from the dashboard. See Gateway Dashboard Design.