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galaxy-game/backend/internal/devsandbox/bootstrap.go
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Ilia Denisov 0f8f8698bd local-dev: rebuild dead sandbox + harden lobby card UX 
Three fixes around the dev sandbox end-to-end path. Each one was
flushed out by an actual login walkthrough after the previous
commit.

Backend bootstrap now treats `cancelled`, `finished`, and
`start_failed` as terminal: the per-boot find-or-create skips such
games and provisions a fresh one. Without this, a single bad
shutdown cascade leaves the developer staring at a dead lobby tile
forever (cancelled games don't transition back). Covered by
TestTerminalSandboxStatus.

Tools/local-dev: stop killing engine containers in `make down`. The
runtime treats the disappearance of an engine as a real failure
(cascading the lobby game to `cancelled`); leaving the container
running across `down/up` lets the runtime reconciler re-attach on
the next boot. The teardown happens only in `make clean`, where the
DB is wiped anyway. Compose now also exposes :9090 (authenticated
EdgeGateway listener) on the host so the Vite dev proxy can reach
the Connect-Web surface, and bumps the gateway anti-abuse limits
for `public_misc` so the same surface is not blanket-rejected with
413.

Ui/frontend: the lobby's `My Games` cards are now clickable only
for the playable statuses (`running`, `paused`, `finished`). All
other statuses render as disabled buttons so a click on a draft or
cancelled game no longer drops the user on a 404 — the in-game
view at /games/:id/* doesn't exist before Phase 10 and never makes
sense for a cancelled game. Vite proxy splits the dev targets so
`/api/*` continues to talk to the REST listener and
`/galaxy.gateway.v1.EdgeGateway/*` is routed to the Connect-Web
listener via VITE_DEV_GRPC_PROXY_TARGET (defaults to :9090).

Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
2026-05-08 19:32:44 +02:00

253 lines
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// Package devsandbox provisions a ready-to-play game on backend boot
// for the `tools/local-dev` stack.
//
// Bootstrap is invoked from `backend/cmd/backend/main.go` after the
// admin bootstrap and before the HTTP listener starts. It reads
// `cfg.DevSandbox`; when `Email` is empty (the production posture)
// the function logs "skipped" and returns nil. When set, it
// idempotently:
//
// 1. registers the configured engine version and image;
// 2. find-or-creates the real dev user with the configured email;
// 3. find-or-creates `cfg.PlayerCount - 1` deterministic dummy
// users so the engine's minimum-players constraint is met;
// 4. find-or-creates a private "Dev Sandbox" game owned by the
// real user with min/max_players = cfg.PlayerCount and a
// year-out turn schedule (effectively frozen at turn 1);
// 5. inserts memberships for all participants bypassing the
// application/approval flow;
// 6. drives the lifecycle to `running` (or as far as possible if
// the runtime is busy).
//
// The function is a no-op on subsequent boots once the game is
// running; partial states from earlier crashes are recovered.
package devsandbox
import (
"context"
"errors"
"fmt"
"time"
"galaxy/backend/internal/config"
"galaxy/backend/internal/lobby"
"galaxy/backend/internal/runtime"
"github.com/google/uuid"
"go.uber.org/zap"
)
// SandboxGameName is the display name used to identify the
// auto-provisioned game on subsequent reboots. The combination of
// game_name and owner_user_id is unique enough in practice — only
// the dev sandbox bootstrap creates a game owned by the configured
// real user with this exact name.
const SandboxGameName = "Dev Sandbox"
// SandboxTurnSchedule keeps the game on turn 1 by scheduling the
// next turn a year out. The runtime scheduler still parses this and
// will tick once a year — long enough to never interfere with
// solo UI development.
const SandboxTurnSchedule = "0 0 1 1 *"
// UserEnsurer matches `auth.UserEnsurer`. We define a local
// interface to avoid importing the auth package and circular
// dependencies — the production wiring passes the same `*user.Service`
// instance used by auth.
type UserEnsurer interface {
EnsureByEmail(ctx context.Context, email, preferredLanguage, timeZone, declaredCountry string) (uuid.UUID, error)
}
// Deps aggregates the collaborators Bootstrap needs.
type Deps struct {
Users UserEnsurer
Lobby *lobby.Service
EngineVersions *runtime.EngineVersionService
}
// Bootstrap runs the seven-step provisioning flow described on the
// package doc comment. Errors are returned to the caller; the boot
// path in `cmd/backend/main.go` aborts startup if Bootstrap fails so
// a misconfigured dev environment surfaces immediately rather than
// silently leaving the lobby empty.
func Bootstrap(ctx context.Context, deps Deps, cfg config.DevSandboxConfig, logger *zap.Logger) error {
if logger == nil {
logger = zap.NewNop()
}
logger = logger.Named("dev_sandbox")
if cfg.Email == "" {
logger.Info("skipped (no email)")
return nil
}
if deps.Users == nil || deps.Lobby == nil || deps.EngineVersions == nil {
return errors.New("dev_sandbox: deps.Users, deps.Lobby and deps.EngineVersions are required")
}
if cfg.PlayerCount <= 0 {
return fmt.Errorf("dev_sandbox: PlayerCount must be positive, got %d", cfg.PlayerCount)
}
if err := ensureEngineVersion(ctx, deps.EngineVersions, cfg, logger); err != nil {
return err
}
realID, err := deps.Users.EnsureByEmail(ctx, cfg.Email, "en", "UTC", "")
if err != nil {
return fmt.Errorf("dev_sandbox: ensure real user: %w", err)
}
dummyIDs := make([]uuid.UUID, 0, cfg.PlayerCount-1)
for i := 1; i < cfg.PlayerCount; i++ {
email := fmt.Sprintf("dev-dummy-%02d@local.test", i)
id, err := deps.Users.EnsureByEmail(ctx, email, "en", "UTC", "")
if err != nil {
return fmt.Errorf("dev_sandbox: ensure dummy %d: %w", i, err)
}
dummyIDs = append(dummyIDs, id)
}
game, err := findOrCreateSandboxGame(ctx, deps.Lobby, realID, cfg)
if err != nil {
return err
}
game, err = ensureMembershipsAndDrive(ctx, deps.Lobby, game, realID, dummyIDs, logger)
if err != nil {
return err
}
logger.Info("bootstrap complete",
zap.String("user_id", realID.String()),
zap.String("game_id", game.GameID.String()),
zap.String("status", game.Status),
)
return nil
}
func ensureEngineVersion(ctx context.Context, svc *runtime.EngineVersionService, cfg config.DevSandboxConfig, logger *zap.Logger) error {
_, err := svc.Register(ctx, runtime.RegisterInput{
Version: cfg.EngineVersion,
ImageRef: cfg.EngineImage,
})
switch {
case err == nil:
logger.Info("engine version registered",
zap.String("version", cfg.EngineVersion),
zap.String("image", cfg.EngineImage),
)
return nil
case errors.Is(err, runtime.ErrEngineVersionTaken):
logger.Debug("engine version already registered",
zap.String("version", cfg.EngineVersion),
)
return nil
default:
return fmt.Errorf("dev_sandbox: register engine version: %w", err)
}
}
// terminalSandboxStatus reports whether a sandbox game has reached a
// state from which it can no longer be driven back to running. We
// treat such games as "absent" so the next bootstrap creates a fresh
// one rather than handing the developer a dead lobby tile.
func terminalSandboxStatus(status string) bool {
switch status {
case lobby.GameStatusCancelled, lobby.GameStatusFinished, lobby.GameStatusStartFailed:
return true
}
return false
}
func findOrCreateSandboxGame(ctx context.Context, svc *lobby.Service, ownerID uuid.UUID, cfg config.DevSandboxConfig) (lobby.GameRecord, error) {
games, err := svc.ListMyGames(ctx, ownerID)
if err != nil {
return lobby.GameRecord{}, fmt.Errorf("dev_sandbox: list my games: %w", err)
}
for _, g := range games {
if g.GameName != SandboxGameName || g.OwnerUserID == nil || *g.OwnerUserID != ownerID {
continue
}
if terminalSandboxStatus(g.Status) {
continue
}
return g, nil
}
rec, err := svc.CreateGame(ctx, lobby.CreateGameInput{
OwnerUserID: &ownerID,
Visibility: lobby.VisibilityPrivate,
GameName: SandboxGameName,
Description: "Auto-provisioned by backend/internal/devsandbox for solo UI development.",
MinPlayers: int32(cfg.PlayerCount),
MaxPlayers: int32(cfg.PlayerCount),
StartGapHours: 0,
StartGapPlayers: 0,
EnrollmentEndsAt: time.Now().Add(365 * 24 * time.Hour),
TurnSchedule: SandboxTurnSchedule,
TargetEngineVersion: cfg.EngineVersion,
})
if err != nil {
return lobby.GameRecord{}, fmt.Errorf("dev_sandbox: create game: %w", err)
}
return rec, nil
}
func ensureMembershipsAndDrive(ctx context.Context, svc *lobby.Service, game lobby.GameRecord, realID uuid.UUID, dummyIDs []uuid.UUID, logger *zap.Logger) (lobby.GameRecord, error) {
caller := realID
if game.Status == lobby.GameStatusDraft {
next, err := svc.OpenEnrollment(ctx, &caller, false, game.GameID)
if err != nil {
return game, fmt.Errorf("dev_sandbox: open enrollment: %w", err)
}
game = next
}
if game.Status == lobby.GameStatusEnrollmentOpen {
users := append([]uuid.UUID{realID}, dummyIDs...)
for i, uid := range users {
raceName := fmt.Sprintf("Sandbox-%02d", i+1)
if _, err := svc.InsertMembershipDirect(ctx, lobby.InsertMembershipDirectInput{
GameID: game.GameID,
UserID: uid,
RaceName: raceName,
}); err != nil {
return game, fmt.Errorf("dev_sandbox: insert membership %d: %w", i+1, err)
}
}
logger.Info("memberships ensured",
zap.Int("count", len(users)),
zap.String("game_id", game.GameID.String()),
)
next, err := svc.ReadyToStart(ctx, &caller, false, game.GameID)
if err != nil {
return game, fmt.Errorf("dev_sandbox: ready to start: %w", err)
}
game = next
}
if game.Status == lobby.GameStatusReadyToStart {
next, err := svc.Start(ctx, &caller, false, game.GameID)
if err != nil {
return game, fmt.Errorf("dev_sandbox: start: %w", err)
}
game = next
}
if game.Status == lobby.GameStatusStartFailed {
next, err := svc.RetryStart(ctx, &caller, false, game.GameID)
if err != nil {
logger.Warn("retry start failed", zap.Error(err))
return game, nil
}
game = next
if game.Status == lobby.GameStatusReadyToStart {
next, err := svc.Start(ctx, &caller, false, game.GameID)
if err != nil {
return game, fmt.Errorf("dev_sandbox: start after retry: %w", err)
}
game = next
}
}
return game, nil
}
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