galaxy-game/ARCHITECTURE.md

Services Architecture

Galaxy Plus: Turn-based Strategy Game

Purpose

This document defines the high-level architecture of the Galaxy Plus platform as a single source of truth for implementing all core microservices.

It describes:

• public and trusted service boundaries;
• ownership of main business entities and state;
• request routing and transport rules;
• interaction rules between services;
• runtime model for game containers;
• notification and event propagation model;
• recommended implementation order.

Detailed behavior of each concrete service belongs in its own README. This document fixes the system-level structure and the architectural rules that must remain stable across service implementations.

Scope

Galaxy Plus is a multiplayer turn-based online strategy game platform.

Core product properties:

• many game sessions may exist simultaneously;
• one user may participate in multiple games at once;
• users authenticate by e-mail confirmation code;
• users have platform roles and tariff/entitlement state;
• games may be public or private;
• public games are managed by system administrators;
• private games are created and managed by eligible paid users;
• each running game is executed inside its own dedicated game engine container;
• each running game is bound to one concrete engine version;
• in-place upgrade of a running game is allowed only as a patch update within the same semver major/minor line;
• player commands are turn-bound and are accepted only before the next scheduled turn generation cutoff.

The current v1 platform uses Redis as the main data store and Redis Streams as the internal event bus.

Main Principles

• The platform exposes a single external entry point: Edge Gateway.
• Public unauthenticated flows use REST/JSON.
• Authenticated user traffic uses signed gRPC over HTTP/2 with protobuf control envelopes and FlatBuffers payload bytes.
• The gateway handles only edge concerns: parsing, authentication, integrity checks, anti-replay, rate limiting, routing, and push delivery. Business authorization and domain rules remain in downstream services.
• Auth / Session Service is the source of truth for device_session, but it is not on the hot path of every authenticated request. Gateway authenticates steady-state traffic from session cache and lifecycle updates.
• Game Lobby owns platform-level metadata of game sessions.
• Game Master owns runtime and operational state of running games.
• Runtime Manager is the only service allowed to access Docker API directly.
• Notification Service is the platform-level delivery/orchestration layer for push and most non-auth email notifications.
• Mail Service sends email; auth-code mail is sent directly by Auth / Session Service, while all other platform mail is initiated through Notification Service.
• Geo Profile Service is auxiliary and fail-open relative to gameplay; it never blocks the currently processed request and may affect only later requests.
• If a user-facing request must complete with a deterministic result in the same flow, the critical internal chain must be synchronous. If the interaction is propagation, notification, cache update, runtime job completion, telemetry, or denormalized read-model update, it should be asynchronous.

Security and Transport Model

The former standalone security model is part of the main architecture and is no longer treated as a separate subsystem.

Public and authenticated transport classes

The gateway already distinguishes:

• public REST/JSON for unauthenticated traffic such as health checks and public auth;
• authenticated gRPC over HTTP/2 for verified commands and push delivery.

The public auth contract is:

• send-email-code(email) -> challenge_id
• confirm-email-code(challenge_id, code, client_public_key) -> device_session_id

The authenticated request contract is based on:

• device_session_id
• message_type
• timestamp_ms
• request_id
• payload_hash
• Ed25519 client signature over canonical envelope fields.

Server responses and push events are signed by the gateway so clients can verify server-originated messages. Push streams are bound to authenticated user_id and device_session_id, and session revoke closes only streams bound to the revoked session.

Verification boundary

Before routing an authenticated request, gateway must:

1. validate envelope presence and protocol version;
2. resolve session from session cache;
3. reject unknown or revoked sessions;
4. verify payload_hash;
5. verify client signature;
6. verify freshness window;
7. verify anti-replay by device_session_id + request_id;
8. apply edge rate limits and basic policy checks;
9. build an authenticated internal command context and only then route downstream.

Downstream services must never receive unauthenticated external traffic.

High-Level System Diagram

flowchart LR
    Client["Game Client\n(native / browser)"]
    AdminUI["Admin UI"]
    Gateway["Edge Gateway\nPublic REST\nAuthenticated gRPC\nAdmin REST"]
    Auth["Auth / Session Service"]
    User["User Service"]
    Lobby["Game Lobby Service"]
    GM["Game Master"]
    Runtime["Runtime Manager"]
    Notify["Notification Service"]
    Mail["Mail Service"]
    Geo["Geo Profile Service"]
    Billing["Billing Service\nfuture"]
    Redis["Redis\nKV + Streams"]
    Telemetry["Telemetry"]

    Client --> Gateway
    AdminUI --> Gateway

    Gateway --> Auth
    Gateway --> User
    Gateway --> Lobby
    Gateway --> GM
    Gateway --> Geo

    Auth --> User
    Auth --> Mail
    Auth --> Redis

    User --> Redis

    Lobby --> User
    Lobby --> GM
    Lobby --> Runtime
    Lobby --> Redis

    GM --> Lobby
    GM --> Runtime
    GM --> Redis

    Geo --> Auth
    Geo --> User
    Geo --> Redis

    Notify --> Gateway
    Notify --> Mail
    Notify --> Redis

    Runtime --> Redis
    Billing --> User
    Telemetry --- Gateway
    Telemetry --- Auth
    Telemetry --- User
    Telemetry --- Lobby
    Telemetry --- GM
    Telemetry --- Runtime
    Telemetry --- Notify
    Telemetry --- Geo

The baseline gateway/auth/session/pub-sub model above is consistent with the existing architecture and service READMEs.

Service List and Responsibility Boundaries

1. Edge Gateway

Edge Gateway is the only public entry point for all external traffic. It already owns transport parsing, session-cache-based authentication, signature verification, freshness/replay checks, edge rate limiting, routing, and push delivery. It must remain free of domain-specific business logic.

External surfaces:

• public REST:

  • health and readiness;
  • public auth commands;
  • browser/bootstrap and public route classes where needed.

• authenticated gRPC:

  • generic ExecuteCommand;
  • authenticated SubscribeEvents.

• admin REST:

  • separate public administrative surface for system administrators;
  • routed only for authenticated users with admin role.

The gateway does not directly access game engine containers. For running games it routes to Game Master. For pre-game platform flows it routes to Game Lobby. For user-profile requests it routes to User Service. For public auth it routes to Auth / Session Service.

2. Auth / Session Service

Auth / Session Service owns:

• challenge lifecycle;
• e-mail-code authentication;
• creation of device_session;
• registration of the client Ed25519 public key;
• revoke/logout/block state;
• trusted internal read/revoke/block API;
• projection of session lifecycle state into gateway-consumable Redis data.

It is the source of truth for:

• authentication challenges;
• device_session;
• revoke/block state.

Important architectural rules:

• public auth stays synchronous;
• confirm-email-code returns a ready device_session_id;
• no async “pending session provisioning” stage exists;
• session source of truth and gateway-facing projection remain separate;
• active-session limits are configuration-driven;
• send-email-code stays success-shaped for existing, new, blocked, and throttled email flows.

Direct integrations:

• synchronous to User Service for user resolution/create/block decision;
• synchronous to Mail Service for auth-code delivery;
• asynchronous session lifecycle projection into Redis for gateway consumption.

3. User Service

User Service owns user identity and profile as platform-level business data.

It is the source of truth for:

• user_id;
• profile fields and editable user settings;
• role model, including admin role;
• current tariff/entitlement state;
• user-specific limits and platform sanctions;
• latest effective declared_country.

It is directly reachable through gateway for selected user-facing operations such as:

• reading and editing allowed profile fields;
• viewing tariff and entitlement state;
• viewing user settings;
• viewing current restrictions and sanctions.

Not every profile mutation goes directly here. For example:

• email change must use a code-confirm flow;
• declared_country change remains under admin approval flow via Geo Profile Service.

Future billing does not become a direct dependency of other services. Billing Service will feed entitlement/payment outcomes into User Service, and the rest of the platform will continue to use User Service as the source of truth for current entitlements.

4. Mail Service

Mail Service is the internal email delivery service.

Split of responsibility:

• auth code emails: Auth / Session Service -> Mail Service directly;
• all other user/admin notification emails: Notification Service -> Mail Service.

Mail delivery may be internally queued inside the mail service, but to its callers it is still a synchronous internal command where the caller needs a deterministic send-or-fail result.

5. Geo Profile Service

Geo Profile Service is an internal trusted auxiliary service for country-level connection signals of authenticated users.

It integrates with:

• gateway as asynchronous ingest producer;
• User Service for current effective declared_country;
• Auth / Session Service for suspicious session blocking;
• Mail Service only for optional admin notifications.

It owns:

• observed country facts;
• per-session country aggregation;
• usual_connection_country;
• country_review_recommended;
• history of declared_country changes.

It does not block the request that triggered suspicion. It can only request block of suspicious sessions for subsequent requests.

In this document, references to Edge Service in older geo documentation should be understood as Edge Gateway.

6. Admin Service

Admin Service is the external backend/orchestration layer for the administrative UI.

It is not a heavy domain owner. Its job is to:

• expose administrator-facing workflows;
• call trusted internal APIs of other services;
• aggregate administrative views where needed;
• enforce system-admin role checks at the gateway/admin boundary.

System administrators can view and operate on all games, including private ones.

7. Game Lobby Service

Game Lobby owns platform-level metadata and lifecycle of game sessions as platform entities.

It is the source of truth for:

• game records before and after runtime existence;
• public/private game type;
• owner of a private game;
• invitations and invite code lifecycle;
• applications and approvals;
• membership and roster;
• blocked/removed participants at platform level;
• turn schedule configuration;
• target engine version for launch;
• user-facing lists of games;
• denormalized runtime snapshot imported from Game Master.

Game Lobby is the source of truth for:

• party membership;
• invited / pending / active / finished / removed status of players relative to games;
• user-visible lists such as active / finished / pending / invited games.

It also stores a denormalized runtime snapshot for convenience, at least:

• current_turn;
• runtime_status;
• engine_health_summary.

This prevents user-facing list/read flows from fan-out requests into Game Master.

Lobby status model

Minimum platform-level status set:

• draft
• enrollment_open
• enrollment_closed
• ready_to_start
• starting
• running
• paused
• finished
• cancelled

Lobby.paused is a business/platform pause, distinct from engine/runtime failure states.

Membership rules

• User Service owns users of the platform as identities.
• Game Lobby owns membership in concrete games.
• game engine does not own platform membership;
• Game Master may cache membership for runtime authorization, but Game Lobby remains the source of truth.

Public vs private game rules

Public games:

• created and controlled by system administrators;
• visible in public list;
• joining is based on application and manual admin approval in v1.

Private games:

• can be created only by eligible paid users;
• visible only to their owner and to invited users who used an invite code and were accepted;
• joining uses invite code plus owner approval;
• invite lifecycle belongs entirely to Game Lobby.

Private-party owners get a limited owner-admin capability set, not full system admin power.

8. Game Master

Game Master owns runtime and operational metadata of already running games.

It is the only trusted service allowed to communicate with game engine containers.

It owns:

• runtime mapping of running game to container endpoint/binding;
• current turn number;
• runtime status;
• generation status;
• engine health;
• patch state;
• engine version registry and version-specific engine options;
• runtime mapping platform user_id -> engine player UUID for each running game.

Game Master status model

Minimum runtime-level status set:

• starting
• running
• generation_in_progress
• generation_failed
• stopped
• engine_unreachable

running here means running_accepting_commands.

Game command routing

All game-related message_type include game_id.

Gateway enriches them with authenticated user_id and routes them to Game Master. Game Master checks whether this user may access this running game, using membership data sourced from Game Lobby, then routes the command to the correct engine container.

The gateway never routes directly to game engine containers.

Runtime admin operations

For already running games, Game Master handles:

• stop game
• force next turn
• patch engine
• admin/runtime status reads
• player deactivation/removal inside engine when required
• regular collection of game runtime metrics

System admin can use all of them. Private-game owner can use the subset allowed for the owner of that game.

Turn cutoff and scheduling

Game Master is the owner of authoritative platform time for turn cutoff decisions.

Commands arriving exactly on the boundary of a new turn are considered stale and must not reach the engine.

The scheduler is a subsystem inside Game Master. It triggers turn generation according to the game schedule.

If a manual “force next turn” is executed, the next scheduled turn slot must be skipped so that players still get at least one full normal schedule interval before the following generated turn.

Runtime/engine finish flow

When the engine determines that a game is finished:

1. engine reports finish to Game Master;
2. Game Master updates runtime state;
3. Game Master notifies Game Lobby;
4. Game Lobby updates the platform-level game record to finished.

Player removal after start

After a game has started, two different actions exist:

• temporary removal/block at platform level:

  • the player cannot send commands through gateway/platform;
  • the engine still keeps the player slot;

• final removal or account-level block:

  • Game Master must additionally send an admin command to the engine to deactivate/remove the player inside the game.

This distinction is architectural and must remain explicit.

9. Runtime Manager

Runtime Manager is the only internal service allowed to access Docker API directly.

It owns:

• starting game engine containers;
• stopping containers;
• restarting containers where allowed;
• patching/replacing containers where allowed;
• technical runtime inspection/status;
• monitoring containers and publishing technical health events.

It does not own platform metadata of games. It does not own runtime business state of games. It executes runtime jobs for Game Lobby and Game Master.

Container model

• one game = one container;
• one container = one game.

This is a hard invariant.

10. Notification Service

Notification Service is the async delivery/orchestration layer for platform notifications.

It has a deliberately minimal role:

• consume domain/integration events from services;
• decide whether a given event should result in push, email, or both;
• render and route notification payloads;
• send push-targeted events toward gateway;
• send email-targeted commands toward Mail Service.

It is not a source of truth for user preferences in v1 unless a later feature requires it.

All platform notifications except auth-code delivery flow through this service, including:

• game lifecycle notifications;
• invite/application updates;
• new turn notifications;
• operational/admin notifications where appropriate.

11. Billing Service (future)

Billing Service is not part of the first implementation wave.

When introduced, it will:

• process payment/billing events;
• calculate or validate payment outcomes;
• feed resulting entitlement changes into User Service.

User Service remains the source of truth for current entitlement used by the rest of the platform.

Data Ownership Summary

flowchart TD
    U["User Service"]
    A["Auth / Session Service"]
    L["Game Lobby"]
    G["Game Master"]
    R["Runtime Manager"]
    P["Geo Profile Service"]
    N["Notification Service"]
    M["Mail Service"]

    U -->|"users, roles, tariffs, limits, sanctions, current declared_country"| X1["Platform user identity"]
    A -->|"challenges, device sessions, revoke/block state"| X2["Auth/session state"]
    L -->|"game metadata, invites, applications, membership, roster"| X3["Platform game records"]
    G -->|"runtime state, current turn, engine health, engine mapping, engine version registry"| X4["Running-game state"]
    R -->|"container execution and technical runtime control"| X5["Container runtime"]
    P -->|"observed country, usual_connection_country, review state, declared_country history"| X6["Geo state"]
    N -->|"notification routing only"| X7["Notification orchestration"]
    M -->|"email delivery only"| X8["Email transport"]

Internal Transport Semantics

The platform uses one simple rule:

• if the user-facing request must complete with a deterministic result in the same flow, the critical internal chain is synchronous;
• if the interaction is propagation, notification, cache invalidation, runtime job completion, telemetry, or denormalized read-model update, it is asynchronous.

Fixed synchronous interactions

• Gateway -> Auth / Session Service
• Gateway -> Admin Service
• Gateway -> User Service
• Gateway -> Game Lobby
• Gateway -> Game Master
• Auth / Session Service -> User Service
• Auth / Session Service -> Mail Service
• Geo Profile Service -> Auth / Session Service
• Geo Profile Service -> User Service
• Game Lobby -> User Service
• Game Lobby -> Game Master for critical registration/update calls

Fixed asynchronous interactions

• session lifecycle projection toward gateway cache;
• revoke propagation;
• Lobby -> Runtime Manager runtime jobs;
• Game Master -> Runtime Manager runtime jobs;
• all event-bus propagation;
• Notification Service -> Gateway;
• Notification Service -> Mail Service;
• geo auxiliary ingest from gateway to geo service;
• runtime health events from Runtime Manager.

Mixed interactions

Some service pairs may use both styles for different flows. The main example is Lobby -> Game Master:

• synchronous for critical registration/update after successful start;
• asynchronous for secondary propagation and denormalized status fan-out.

Redis as Data and Event Infrastructure

Redis is the first-stage shared infrastructure for:

• main persistent data of services where no SQL backend is yet introduced;
• gateway session cache backing data;
• replay reservation store for gateway;
• session lifecycle projection;
• internal event bus using Redis Streams;
• notification fan-out;
• runtime job completion events;
• lobby/game-master propagation events;
• geo auxiliary events.

Redis Streams are therefore the platform event bus in v1.

This is an accepted trade-off for simpler early-stage infrastructure. Service boundaries must still stay storage-agnostic where future SQL migration is expected, especially in Auth / Session Service.

Main End-to-End Flows

1. Public authentication flow

sequenceDiagram
    participant Client
    participant Gateway
    participant Auth
    participant User
    participant Mail
    participant Redis

    Client->>Gateway: POST send-email-code
    Gateway->>Auth: send-email-code
    Auth->>User: resolve existing/creatable/blocked
    User-->>Auth: decision
    Auth->>Mail: send or suppress code
    Auth-->>Gateway: challenge_id
    Gateway-->>Client: challenge_id

    Client->>Gateway: POST confirm-email-code
    Gateway->>Auth: confirm-email-code
    Auth->>Auth: validate challenge/code/public key
    Auth->>User: resolve/create/block
    User-->>Auth: user_id or deny
    Auth->>Auth: create device_session
    Auth->>Redis: write gateway session projection
    Auth->>Redis: publish session lifecycle update
    Auth-->>Gateway: device_session_id
    Gateway-->>Client: device_session_id

This preserves the existing gateway/auth contract and the rule that auth is not on the steady-state hot path.

2. Authenticated game/platform request flow

sequenceDiagram
    participant Client
    participant Gateway
    participant Lobby
    participant GM as Game Master

    Client->>Gateway: ExecuteCommand(message_type, payload, signature)
    Gateway->>Gateway: verify session, signature, freshness, replay
    alt platform-level command
        Gateway->>Lobby: verified authenticated command
        Lobby-->>Gateway: response
    else running-game command
        Gateway->>GM: verified authenticated command with game_id
        GM-->>Gateway: response
    end
    Gateway-->>Client: signed response

3. Game creation and pre-start lifecycle

sequenceDiagram
    participant Client
    participant Gateway
    participant Lobby
    participant User

    Client->>Gateway: create/apply/invite/approve/start-preparation commands
    Gateway->>Lobby: verified platform command
    Lobby->>User: entitlement/limit checks when needed
    User-->>Lobby: allow/deny and user metadata
    Lobby->>Lobby: update game metadata, roster, schedule, target engine version
    Lobby-->>Gateway: response
    Gateway-->>Client: signed response

4. Game start flow

sequenceDiagram
    participant Owner as Admin or Private Owner
    participant Gateway
    participant Lobby
    participant Runtime
    participant GM as Game Master
    participant Engine as Game Engine Container
    participant Redis

    Owner->>Gateway: start game
    Gateway->>Lobby: verified start command
    Lobby->>Lobby: validate ready_to_start and roster
    Lobby->>Runtime: async start job
    Runtime-->>Redis: runtime job result event

    alt start failed
        Lobby->>Lobby: keep failure / starting error state
        Lobby-->>Gateway: failure or accepted-then-observed failure path
    else container started
        Lobby->>Lobby: persist game metadata and runtime binding
        Lobby->>GM: sync running-game registration
        GM->>Engine: initial engine setup API
        GM->>GM: initialize runtime state
        GM-->>Lobby: registration result
        Lobby->>Lobby: mark game running or paused
    end

Critical rule: if the container starts but Lobby cannot persist metadata, the launch is considered a full failure and the container must be removed. If metadata is persisted but Game Master is unavailable, the game is placed into paused and administrators are notified.

5. Running-game command flow

sequenceDiagram
    participant Client
    participant Gateway
    participant GM as Game Master
    participant Lobby
    participant Engine

    Client->>Gateway: game-related ExecuteCommand(game_id,...)
    Gateway->>GM: verified authenticated command
    GM->>GM: check runtime status
    GM->>Lobby: resolve/cached-check membership if needed
    Lobby-->>GM: membership / permissions
    GM->>Engine: game or runtime-admin API call
    Engine-->>GM: result
    GM-->>Gateway: response payload
    Gateway-->>Client: signed response

6. Scheduled turn generation flow

sequenceDiagram
    participant Scheduler as Game Master Scheduler
    participant GM as Game Master
    participant Engine
    participant Lobby
    participant Notify as Notification Service
    participant Gateway

    Scheduler->>GM: due turn slot reached
    GM->>GM: switch runtime_status to generation_in_progress
    GM->>Engine: generate next turn
    alt generation success
        Engine-->>GM: new turn result / maybe finished
        GM->>GM: update current_turn and runtime state
        GM->>Lobby: sync runtime snapshot
        GM->>Notify: publish new-turn event
        Notify->>Gateway: client-facing push events
    else generation failed
        Engine-->>GM: error / timeout
        GM->>GM: mark generation_failed
        GM->>Lobby: sync runtime snapshot
        GM->>Notify: notify administrators only
    end

Players receive only a lightweight push notification that a new turn exists. They then request their own per-player game state separately.

If force next turn is used, the next scheduled slot is skipped so that the effective time between turns never becomes shorter than the schedule spacing.

7. Game finish flow

sequenceDiagram
    participant Engine
    participant GM as Game Master
    participant Lobby
    participant Notify as Notification Service
    participant Gateway

    Engine->>GM: game finished
    GM->>GM: update runtime state
    GM->>Lobby: mark platform game finished
    Lobby->>Lobby: finalize game record
    GM->>Notify: publish finish event
    Notify->>Gateway: push user-facing/platform events

8. Geo profile auxiliary flow

sequenceDiagram
    participant Gateway
    participant Geo
    participant User
    participant Auth

    Gateway-->>Geo: async observation(user_id, device_session_id, ip_addr)
    Geo->>Geo: derive observed_country and aggregates
    alt suspicious multi-country pattern
        Geo->>Auth: sync block suspicious session(s)
    end
    alt declared_country admin change approved later
        Geo->>User: sync current declared_country update
    end

This flow is intentionally fail-open relative to gameplay.

Separation of Platform Metadata and Engine State

This distinction is fundamental.

Platform-level state

Owned by Game Lobby:

• who owns the game;
• who is invited;
• who applied;
• who was approved;
• who is currently a platform participant;
• what the schedule is;
• whether the game is public/private;
• whether the game is draft, running, paused, finished, etc. as a platform entity.

Runtime/operational state

Owned by Game Master:

• current turn;
• runtime status;
• generation state;
• engine reachability;
• patch state;
• mapping to engine player UUIDs;
• engine version registry;
• operational metadata of the running game.

Full game state

Owned only by the game engine container:

• actual per-player game state;
• internal mechanics and progression;
• player-visible game state snapshots;
• win/lose logic;
• domain truth of the game world.

The platform must not attempt to duplicate the full game state outside the engine.

Versioning of Game Engines

Every game runs on one specific game engine version.

Rules:

• active games stay on the version with which they were started;
• upgrade during a running game is allowed only as a patch update within the same major/minor line;
• game-engine version management is manual in v1;
• each engine version may carry version-specific engine options;
• Game Master owns the engine version registry and its internal API.

Administrative Access Model

Two distinct external admin modes exist.

System administrator

Uses a separate admin-facing REST surface via gateway and Admin Service.

System administrator can:

• manage public games;
• see and operate on all private games;
• inspect platform operational state;
• launch, stop, patch, pause, and monitor games;
• approve/reject participation in public games;
• perform user/game administrative actions.

Private-game owner

Uses the normal authenticated client protocol, not the separate system admin UI.

Allowed owner-admin actions are limited to the owner’s own private games and include at least:

• initiate enrollment;
• distribute invite codes outside the system;
• approve/reject applicants;
• start game after enrollment;
• force next turn while running;
• stop game;
• temporarily or permanently remove/block players from that game according to allowed policy.

These operations use dedicated admin-related message_type values in the normal authenticated game/client protocol.

Non-Goals

The architecture intentionally does not try to solve all future concerns now.

Current non-goals:

• a separate global SQL storage layer in v1;
• a separate policy engine;
• automatic billing integration in v1;
• automatic match balancing in v1;
• direct external access to internal services;
• pushing full per-player game state over notification channels;
• allowing game engine containers to be called directly by clients or by services other than Game Master;
• using Auth / Session Service as a hot synchronous dependency for all authenticated traffic;
• making Notification Service the source of truth for notification preferences in v1.

Recommended Order of Service Implementation

Recommended order for implementation is:

1. Edge Gateway Service (implemented)
   First public ingress, transport boundary, authentication boundary, signed request/response model, push delivery, session cache, replay protection.

2. Auth / Session Service (implemented)
   Public auth flow, device_session, revoke/block lifecycle, gateway session projection.

3. User Service
   Platform user identity, roles, tariffs/entitlements, user limits, settings, sanctions, and current declared_country.

4. Mail Service
   Internal email delivery for auth codes first, later for platform notifications.

5. Notification Service
   Unified async delivery of push and non-auth email notifications.

6. Game Lobby Service
   Platform game records, membership, invites, applications, approvals, schedules, user-facing lists, pre-start lifecycle.

7. Runtime Manager
   Dedicated Docker-control service for container start/stop/patch/status and technical runtime monitoring.

8. Game Master
   Running-game orchestration, engine version registry, runtime state, turn scheduler, engine API mediation, operational controls.

9. Admin Service
   Admin UI backend that orchestrates trusted APIs of other services.

10. Geo Profile Service (planned)
    Auxiliary geo aggregation, review recommendation, suspicious-session blocking, declared-country workflow.

11. Billing Service
    Late-stage payment and subscription source feeding entitlements into User Service.

This order gives the platform a usable public perimeter first, then identity/auth, then core gameplay lifecycle, then runtime orchestration, and only afterward secondary auxiliary services.