Files
x0gp/server/cmd/poc-server/catalog_handlers.go
T
x0gp 978d36c505 feat(server): initial implementation
This commit captures the full server code accumulated across
several development sessions. It includes the following layers,
applied in roughly this order during development:

1. Base infrastructure
   - cmd/poc-server HTTP+WebSocket server, /health, /stats
   - internal/transport wire types (Envelope + all message types)
   - internal/catalog, internal/realtime, internal/stats
   - internal/storage/postgres with migrations 001-004
   - .env, .env.example, docker-compose, Dockerfile, scripts/

2. Swagger documentation
   - go get github.com/swaggo/http-swagger
   - swag init produces docs/docs.go
   - /swagger/index.html UI, /swagger/doc.json spec
   - annotations on health/stats/ws and catalog handlers

3. Races API
   - internal/races/{store,service,keyset,types}.go
   - migration 005_races.sql: finished_races, race_plans, race_queue
   - GET /api/races with keyset pagination, status filter
   - GET /api/races/upcoming
   - POST /api/races/queue/join, GET, DELETE
   - POST/GET /api/races/plans, DELETE /{id}
   - lobby.RaceMeta simplification (no host_id/host_name)

4. Races seeder
   - internal/races/seed with deterministic generator
   - --seed-races / --reset CLI flags in main.go
   - 30 finished + 5 live + 5 plans + 4 queue entries

5. Drivers and clans
   - internal/drivers, internal/clans (CRUD, validation)
   - migration 008_drivers_clans.sql
   - /api/clans and /api/drivers endpoints
   - 3-letter uppercase nickname/tag validation
   - lobby.DriverMeta: Nickname, AvatarURL, ClanID, ClanTag

6. Podium
   - internal/transport.RacePodiumEntry
   - lobby.SetDriverProfile for in-memory metadata sync
   - migration 007_podium.sql (podium JSONB column)
   - seeder populates top-3 per finished race

7. Live races persistence
   - migration 009_live_persistence.sql: live_races,
     live_race_drivers, lobby_drivers
   - internal/races/live_store.go: LiveStore with write-side
     mirror for lobby.Service mutations
   - Service.collectLive and Upcoming read from Postgres
   - main.go RestoreFromDB rehydrates lobby on startup

8. Unify live + finished into one races table
   - migration 010_unify_races.sql: rename finished_races to
     races, expand status CHECK, merge live rows
   - PgStore now hosts both write paths; LiveStore is a
     thin facade implementing lobby.Persistence
   - seeder resetAll drops only finished/cancelled rows and
     race_plans / race_queue / lobby_drivers

Each layer is consistent on its own; cross-layer changes are
visible in the file history. A future refactor may split this
commit into the per-stage boundaries listed above.
2026-06-22 22:01:09 +04:00

737 lines
23 KiB
Go

// HTTP handlers for the catalog (tracks + cars).
//
// All HTTP routes live under /api/*:
// GET /api/tracks list tracks (optional ?scope=system|public|private&tag=)
// GET /api/tracks/{id} get a single track
// POST /api/tracks create a track
// PUT /api/tracks/{id} update a track
// DELETE /api/tracks/{id} delete a track
// GET /api/cars list cars (optional ?scope=...&owner_id=...)
// GET /api/cars/{id} get a single car
// POST /api/cars create a car
// PUT /api/cars/{id} update a car
// DELETE /api/cars/{id} delete a car
// GET /api/catalog combined snapshot + summary
//
// WebSocket access is wired up directly in main.go's readPump switch.
package main
import (
"encoding/json"
"errors"
"net/http"
"strings"
"time"
"github.com/x0gp/server/internal/catalog"
"github.com/x0gp/server/internal/transport"
)
// ---------------------------------------------------------------------------
// Wire <-> internal conversion
// ---------------------------------------------------------------------------
func waypointToWire(w catalog.Waypoint) transport.TrackWaypoint {
return transport.TrackWaypoint{
X: w.X,
Y: w.Y,
HeadingRad: w.HeadingRad,
SpeedMs: w.SpeedMs,
Curvature: w.Curvature,
}
}
func waypointsToWire(in []catalog.Waypoint) []transport.TrackWaypoint {
if len(in) == 0 {
return nil
}
out := make([]transport.TrackWaypoint, len(in))
for i, w := range in {
out[i] = waypointToWire(w)
}
return out
}
func waypointsFromWire(in []transport.TrackWaypoint) []catalog.Waypoint {
if len(in) == 0 {
return nil
}
out := make([]catalog.Waypoint, len(in))
for i, w := range in {
out[i] = catalog.Waypoint{
X: w.X, Y: w.Y, HeadingRad: w.HeadingRad,
SpeedMs: w.SpeedMs, Curvature: w.Curvature,
}
}
return out
}
func boundsToWire(b catalog.Bounds) transport.TrackBounds {
return transport.TrackBounds{
MinX: b.MinX, MinY: b.MinY, MaxX: b.MaxX, MaxY: b.MaxY,
LengthM: b.LengthM, WidthM: b.WidthM,
}
}
func trackToWire(t catalog.TrackMeta) transport.TrackWire {
return transport.TrackWire{
ID: t.ID,
Name: t.Name,
Description: t.Description,
AuthorID: t.AuthorID,
Visibility: string(t.Visibility),
Scale: t.Scale,
LengthM: t.LengthM,
WidthM: t.WidthM,
LaneWidthM: t.LaneWidthM,
Bounds: boundsToWire(t.Bounds),
Surface: string(t.Surface),
Tags: t.Tags,
Centerline: waypointsToWire(t.Centerline),
BestLapMs: t.BestLapMs,
BestLapHolder: t.BestLapHolder,
CreatedMs: t.CreatedMs,
UpdatedMs: t.UpdatedMs,
}
}
func tracksToWire(in []catalog.TrackMeta) []transport.TrackWire {
if len(in) == 0 {
return []transport.TrackWire{}
}
out := make([]transport.TrackWire, len(in))
for i, t := range in {
out[i] = trackToWire(t)
}
return out
}
func trackFromWire(w transport.TrackWire) catalog.TrackMeta {
return catalog.TrackMeta{
ID: w.ID,
Name: w.Name,
Description: w.Description,
AuthorID: w.AuthorID,
Visibility: catalog.Visibility(w.Visibility),
Scale: w.Scale,
LengthM: w.LengthM,
WidthM: w.WidthM,
LaneWidthM: w.LaneWidthM,
Bounds: catalog.Bounds{
MinX: w.Bounds.MinX, MinY: w.Bounds.MinY,
MaxX: w.Bounds.MaxX, MaxY: w.Bounds.MaxY,
LengthM: w.Bounds.LengthM, WidthM: w.Bounds.WidthM,
},
Surface: catalog.Surface(w.Surface),
Tags: w.Tags,
Centerline: waypointsFromWire(w.Centerline),
BestLapMs: w.BestLapMs,
BestLapHolder: w.BestLapHolder,
CreatedMs: w.CreatedMs,
UpdatedMs: w.UpdatedMs,
}
}
func chassisToWire(c catalog.ChassisSpec) transport.ChassisWire {
return transport.ChassisWire{
Model: c.Model, Material: c.Material, Printed: c.Printed,
WheelbaseMm: c.WheelbaseMm, TrackMm: c.TrackMm,
}
}
func motorToWire(m catalog.MotorSpec) transport.MotorWire {
return transport.MotorWire{
Kind: m.Kind, Class: m.Class, KV: m.KV, PowerW: m.PowerW,
}
}
func batteryToWire(b catalog.BatterySpec) transport.BatteryWire {
return transport.BatteryWire{
VoltageV: b.VoltageV, CapacityMah: b.CapacityMah,
Cells: b.Cells, Chemistry: b.Chemistry,
}
}
func carToWire(c catalog.CarMeta) transport.CarWire {
return transport.CarWire{
ID: c.ID,
Name: c.Name,
OwnerID: c.OwnerID,
Visibility: string(c.Visibility),
Scale: c.Scale,
LengthMm: c.LengthMm,
WidthMm: c.WidthMm,
HeightMm: c.HeightMm,
WeightG: c.WeightG,
Chassis: chassisToWire(c.Chassis),
Motor: motorToWire(c.Motor),
Battery: batteryToWire(c.Battery),
Drive: string(c.Drive),
TopSpeedMs: c.TopSpeedMs,
ColorHex: c.ColorHex,
AvatarURL: c.AvatarURL,
Active: c.Active,
// Stats are read-mostly; the server fills them on read.
TotalDistanceM: c.TotalDistanceM,
TotalRaces: c.TotalRaces,
TotalLaps: c.TotalLaps,
BestLapMs: c.BestLapMs,
CreatedMs: c.CreatedMs,
UpdatedMs: c.UpdatedMs,
}
}
func carsToWire(in []catalog.CarMeta) []transport.CarWire {
if len(in) == 0 {
return []transport.CarWire{}
}
out := make([]transport.CarWire, len(in))
for i, c := range in {
out[i] = carToWire(c)
}
return out
}
func carFromWire(w transport.CarWire) catalog.CarMeta {
return catalog.CarMeta{
ID: w.ID,
Name: w.Name,
OwnerID: w.OwnerID,
Visibility: catalog.Visibility(w.Visibility),
Scale: w.Scale,
LengthMm: w.LengthMm,
WidthMm: w.WidthMm,
HeightMm: w.HeightMm,
WeightG: w.WeightG,
Chassis: catalog.ChassisSpec{
Model: w.Chassis.Model, Material: w.Chassis.Material,
Printed: w.Chassis.Printed, WheelbaseMm: w.Chassis.WheelbaseMm,
TrackMm: w.Chassis.TrackMm,
},
Motor: catalog.MotorSpec{
Kind: w.Motor.Kind, Class: w.Motor.Class,
KV: w.Motor.KV, PowerW: w.Motor.PowerW,
},
Battery: catalog.BatterySpec{
VoltageV: w.Battery.VoltageV, CapacityMah: w.Battery.CapacityMah,
Cells: w.Battery.Cells, Chemistry: w.Battery.Chemistry,
},
Drive: catalog.Drivetrain(w.Drive),
TopSpeedMs: w.TopSpeedMs,
ColorHex: w.ColorHex,
AvatarURL: w.AvatarURL,
Active: w.Active,
CreatedMs: w.CreatedMs,
UpdatedMs: w.UpdatedMs,
}
}
func summaryToWire(s catalog.Stats) transport.CatalogSummary {
return transport.CatalogSummary{
TracksTotal: s.TracksTotal,
TracksSystem: s.TracksSystem,
TracksPublic: s.TracksPublic,
TracksPrivate: s.TracksPrivate,
CarsTotal: s.CarsTotal,
CarsSystem: s.CarsSystem,
CarsPublic: s.CarsPublic,
CarsPrivate: s.CarsPrivate,
CarsActive: s.CarsActive,
TSMs: time.Now().UnixMilli(),
}
}
// ---------------------------------------------------------------------------
// Patch helpers
// ---------------------------------------------------------------------------
func trackPatchFromWire(p transport.TrackPatch) catalog.UpdateTrackOptions {
return catalog.UpdateTrackOptions{
Name: p.Name,
Description: p.Description,
Visibility: visPtr(p.Visibility),
LengthM: p.LengthM,
WidthM: p.WidthM,
LaneWidthM: p.LaneWidthM,
Surface: surfacePtr(p.Surface),
Tags: p.Tags,
Centerline: waypointsFromWirePtr(p.Centerline),
}
}
func carPatchFromWire(p transport.CarPatch) catalog.UpdateCarOptions {
return catalog.UpdateCarOptions{
Name: p.Name,
Visibility: visPtr(p.Visibility),
LengthMm: p.LengthMm,
WidthMm: p.WidthMm,
HeightMm: p.HeightMm,
WeightG: p.WeightG,
Drive: drivePtr(p.Drive),
TopSpeedMs: p.TopSpeedMs,
ColorHex: p.ColorHex,
Active: p.Active,
Chassis: chassisFromPtr(p.Chassis),
Motor: motorFromPtr(p.Motor),
Battery: batteryFromPtr(p.Battery),
}
}
func visPtr(p *string) *catalog.Visibility {
if p == nil {
return nil
}
v := catalog.Visibility(*p)
return &v
}
func surfacePtr(p *string) *catalog.Surface {
if p == nil {
return nil
}
v := catalog.Surface(*p)
return &v
}
func drivePtr(p *string) *catalog.Drivetrain {
if p == nil {
return nil
}
v := catalog.Drivetrain(*p)
return &v
}
func waypointsFromWirePtr(p *[]transport.TrackWaypoint) *[]catalog.Waypoint {
if p == nil {
return nil
}
out := waypointsFromWire(*p)
return &out
}
func chassisFromPtr(p *transport.ChassisWire) *catalog.ChassisSpec {
if p == nil {
return nil
}
return &catalog.ChassisSpec{
Model: p.Model, Material: p.Material, Printed: p.Printed,
WheelbaseMm: p.WheelbaseMm, TrackMm: p.TrackMm,
}
}
func motorFromPtr(p *transport.MotorWire) *catalog.MotorSpec {
if p == nil {
return nil
}
return &catalog.MotorSpec{
Kind: p.Kind, Class: p.Class, KV: p.KV, PowerW: p.PowerW,
}
}
func batteryFromPtr(p *transport.BatteryWire) *catalog.BatterySpec {
if p == nil {
return nil
}
return &catalog.BatterySpec{
VoltageV: p.VoltageV, CapacityMah: p.CapacityMah,
Cells: p.Cells, Chemistry: p.Chemistry,
}
}
func strFromPtr(p *string) string {
if p == nil {
return ""
}
return *p
}
func filterTracksByTag(in []catalog.TrackMeta, tag string) []catalog.TrackMeta {
out := make([]catalog.TrackMeta, 0, len(in))
for _, t := range in {
for _, tg := range t.Tags {
if strings.EqualFold(tg, tag) {
out = append(out, t)
break
}
}
}
return out
}
// ---------------------------------------------------------------------------
// HTTP handlers
// ---------------------------------------------------------------------------
func writeJSON(w http.ResponseWriter, status int, body any) {
w.Header().Set("Content-Type", "application/json; charset=utf-8")
w.WriteHeader(status)
_ = json.NewEncoder(w).Encode(body)
}
func writeError(w http.ResponseWriter, status int, code, msg string) {
writeJSON(w, status, map[string]any{
"ok": false,
"error": msg,
"code": code,
})
}
func mapCatalogError(err error) (int, string) {
switch {
case errors.Is(err, catalog.ErrNotFound):
return http.StatusNotFound, "not_found"
case errors.Is(err, catalog.ErrAlreadyExists):
return http.StatusConflict, "already_exists"
case errors.Is(err, catalog.ErrInvalidInput):
return http.StatusBadRequest, "invalid_input"
case errors.Is(err, catalog.ErrImmutableSystem):
return http.StatusForbidden, "immutable_system"
default:
return http.StatusInternalServerError, "internal"
}
}
// catalogHandler godoc
// @Summary Combined catalog snapshot
// @Description Returns the full in-memory catalog: all tracks, all cars, and aggregate counters. This is the cheapest way for a UI to bootstrap its initial state.
// @Tags catalog
// @Produce json
// @Success 200 {object} map[string]interface{} "Snapshot of tracks, cars and summary counters"
// @Failure 500 {object} map[string]interface{} "Internal server error"
// @Router /api/catalog [get]
func catalogHandler(svc *catalog.Service) http.HandlerFunc {
return func(w http.ResponseWriter, _ *http.Request) {
snap := svc.Snapshot()
writeJSON(w, http.StatusOK, map[string]any{
"tracks": tracksToWire(snap.Tracks),
"cars": carsToWire(snap.Cars),
"summary": summaryToWire(svc.Stats()),
})
}
}
// tracksHandler godoc
// @Summary List tracks
// @Description Returns all tracks visible to the caller. Optional query filters: `scope=system|public|private`, `tag=<string>`.
// @Tags tracks
// @Produce json
// @Param scope query string false "Filter by visibility" Enums(system, public, private)
// @Param tag query string false "Filter by tag (case-insensitive)"
// @Success 200 {object} map[string]interface{} "List of tracks with count"
// @Failure 500 {object} map[string]interface{} "Internal server error"
// @Router /api/tracks [get]
func tracksHandler(svc *catalog.Service) http.HandlerFunc {
return func(w http.ResponseWriter, r *http.Request) {
scope := r.URL.Query().Get("scope")
tag := r.URL.Query().Get("tag")
var out []catalog.TrackMeta
switch strings.ToLower(scope) {
case "system":
out = svc.ListTracksByVisibility(catalog.VisibilitySystem)
case "public":
out = svc.ListTracksByVisibility(catalog.VisibilityPublic)
case "private":
out = svc.ListTracksByVisibility(catalog.VisibilityPrivate)
default:
out = svc.ListTracks()
}
if tag != "" {
out = filterTracksByTag(out, tag)
}
writeJSON(w, http.StatusOK, map[string]any{
"tracks": tracksToWire(out),
"count": len(out),
})
}
}
// trackByIDHandler godoc
// @Summary Get / update / delete a track by id
// @Description Dispatches on HTTP method. The id is taken from the URL path (`/api/tracks/{id}`). System tracks are immutable and cannot be updated or deleted.
// @Tags tracks
// @Produce json
// @Consume json
// @Param id path string true "Track id"
// @Param track body transport.TrackUpdateRequest false "Patch payload (only for PUT)"
// @Success 200 {object} transport.TrackWire "Track payload (GET) or update ack (PUT)"
// @Success 204 {object} transport.TrackAck "Delete ack"
// @Failure 400 {object} map[string]interface{} "Bad request / invalid input"
// @Failure 403 {object} map[string]interface{} "System track is immutable"
// @Failure 404 {object} map[string]interface{} "Track not found"
// @Failure 409 {object} map[string]interface{} "Track id already exists"
// @Failure 500 {object} map[string]interface{} "Internal server error"
// @Router /api/tracks/{id} [get]
// @Router /api/tracks/{id} [put]
// @Router /api/tracks/{id} [delete]
func trackByIDHandler(svc *catalog.Service) http.HandlerFunc {
return func(w http.ResponseWriter, r *http.Request) {
id := strings.TrimPrefix(r.URL.Path, "/api/tracks/")
if id == "" || strings.Contains(id, "/") {
writeError(w, http.StatusBadRequest, "bad_request", "missing track id")
return
}
switch r.Method {
case http.MethodGet:
t, ok := svc.GetTrack(id)
if !ok {
writeError(w, http.StatusNotFound, "not_found", "track not found")
return
}
writeJSON(w, http.StatusOK, trackToWire(t))
case http.MethodPut:
var req transport.TrackUpdateRequest
if err := json.NewDecoder(r.Body).Decode(&req); err != nil {
writeError(w, http.StatusBadRequest, "bad_request", err.Error())
return
}
if req.ID == "" {
req.ID = id
}
patch := trackPatchFromWire(req.Patch)
updated, err := svc.UpdateTrack(r.Context(), req.ID, patch)
if err != nil {
status, code := mapCatalogError(err)
writeError(w, status, code, err.Error())
return
}
writeJSON(w, http.StatusOK, transport.TrackAck{Ok: true, ID: updated.ID, Track: trackToWire(updated)})
case http.MethodDelete:
if err := svc.DeleteTrack(r.Context(), id); err != nil {
status, code := mapCatalogError(err)
writeError(w, status, code, err.Error())
return
}
writeJSON(w, http.StatusOK, transport.TrackAck{Ok: true, ID: id})
default:
w.Header().Set("Allow", "GET PUT DELETE")
writeError(w, http.StatusMethodNotAllowed, "method_not_allowed", r.Method)
}
}
}
// createTrackHandler godoc
// @Summary Create a track
// @Description Creates a new track. The server fills `id` if the client sends an empty one. `author_id` should be the caller's id in production (auth is disabled in PoC).
// @Tags tracks
// @Accept json
// @Produce json
// @Param track body transport.TrackCreateRequest true "Track to create"
// @Success 201 {object} transport.TrackAck "Created"
// @Failure 400 {object} map[string]interface{} "Invalid input"
// @Failure 409 {object} map[string]interface{} "Track id already exists"
// @Failure 500 {object} map[string]interface{} "Internal server error"
// @Router /api/tracks [post]
func createTrackHandler(svc *catalog.Service) http.HandlerFunc {
return func(w http.ResponseWriter, r *http.Request) {
var req transport.TrackCreateRequest
if err := json.NewDecoder(r.Body).Decode(&req); err != nil {
writeError(w, http.StatusBadRequest, "bad_request", err.Error())
return
}
in := trackFromWire(req.Track)
created, err := svc.CreateTrack(r.Context(), catalog.CreateTrackOptions{
ID: in.ID,
Name: in.Name,
Description: in.Description,
AuthorID: in.AuthorID,
Visibility: in.Visibility,
Scale: in.Scale,
LengthM: in.LengthM,
WidthM: in.WidthM,
LaneWidthM: in.LaneWidthM,
Surface: in.Surface,
Tags: in.Tags,
Centerline: in.Centerline,
})
if err != nil {
status, code := mapCatalogError(err)
writeError(w, status, code, err.Error())
return
}
writeJSON(w, http.StatusCreated, transport.TrackAck{Ok: true, ID: created.ID, Track: trackToWire(created)})
}
}
// carsHandler godoc
// @Summary List cars
// @Description Returns all cars visible to the caller. Optional query filters: `scope=system|public|private`, `owner_id=<string>`.
// @Tags cars
// @Produce json
// @Param scope query string false "Filter by visibility" Enums(system, public, private)
// @Param owner_id query string false "Filter by owner id"
// @Success 200 {object} map[string]interface{} "List of cars with count"
// @Failure 500 {object} map[string]interface{} "Internal server error"
// @Router /api/cars [get]
func carsHandler(svc *catalog.Service) http.HandlerFunc {
return func(w http.ResponseWriter, r *http.Request) {
scope := r.URL.Query().Get("scope")
owner := r.URL.Query().Get("owner_id")
var out []catalog.CarMeta
if owner != "" {
out = svc.ListCarsByOwner(owner)
} else {
switch strings.ToLower(scope) {
case "system":
out = svc.ListCarsByVisibility(catalog.VisibilitySystem)
case "public":
out = svc.ListCarsByVisibility(catalog.VisibilityPublic)
case "private":
out = svc.ListCarsByVisibility(catalog.VisibilityPrivate)
default:
out = svc.ListCars()
}
}
writeJSON(w, http.StatusOK, map[string]any{
"cars": carsToWire(out),
"count": len(out),
})
}
}
// carByIDHandler godoc
// @Summary Get / update / delete a car by id
// @Description Dispatches on HTTP method. The id is taken from the URL path (`/api/cars/{id}`). System cars are immutable and cannot be updated or deleted.
// @Tags cars
// @Produce json
// @Consume json
// @Param id path string true "Car id"
// @Param car body transport.CarUpdateRequest false "Patch payload (only for PUT)"
// @Success 200 {object} transport.CarWire "Car payload (GET) or update ack (PUT)"
// @Success 204 {object} transport.CarAck "Delete ack"
// @Failure 400 {object} map[string]interface{} "Bad request / invalid input"
// @Failure 403 {object} map[string]interface{} "System car is immutable"
// @Failure 404 {object} map[string]interface{} "Car not found"
// @Failure 409 {object} map[string]interface{} "Car id already exists"
// @Failure 500 {object} map[string]interface{} "Internal server error"
// @Router /api/cars/{id} [get]
// @Router /api/cars/{id} [put]
// @Router /api/cars/{id} [delete]
func carByIDHandler(svc *catalog.Service) http.HandlerFunc {
return func(w http.ResponseWriter, r *http.Request) {
id := strings.TrimPrefix(r.URL.Path, "/api/cars/")
if id == "" || strings.Contains(id, "/") {
writeError(w, http.StatusBadRequest, "bad_request", "missing car id")
return
}
switch r.Method {
case http.MethodGet:
c, ok := svc.GetCar(id)
if !ok {
writeError(w, http.StatusNotFound, "not_found", "car not found")
return
}
writeJSON(w, http.StatusOK, carToWire(c))
case http.MethodPut:
var req transport.CarUpdateRequest
if err := json.NewDecoder(r.Body).Decode(&req); err != nil {
writeError(w, http.StatusBadRequest, "bad_request", err.Error())
return
}
if req.ID == "" {
req.ID = id
}
patch := carPatchFromWire(req.Patch)
updated, err := svc.UpdateCar(r.Context(), req.ID, patch)
if err != nil {
status, code := mapCatalogError(err)
writeError(w, status, code, err.Error())
return
}
writeJSON(w, http.StatusOK, transport.CarAck{Ok: true, ID: updated.ID, Car: carToWire(updated)})
case http.MethodDelete:
if err := svc.DeleteCar(r.Context(), id); err != nil {
status, code := mapCatalogError(err)
writeError(w, status, code, err.Error())
return
}
writeJSON(w, http.StatusOK, transport.CarAck{Ok: true, ID: id})
default:
w.Header().Set("Allow", "GET PUT DELETE")
writeError(w, http.StatusMethodNotAllowed, "method_not_allowed", r.Method)
}
}
}
// createCarHandler godoc
// @Summary Create a car
// @Description Creates a new car. The server fills `id` if the client sends an empty one. `owner_id` should be the caller's id in production (auth is disabled in PoC).
// @Tags cars
// @Accept json
// @Produce json
// @Param car body transport.CarCreateRequest true "Car to create"
// @Success 201 {object} transport.CarAck "Created"
// @Failure 400 {object} map[string]interface{} "Invalid input"
// @Failure 409 {object} map[string]interface{} "Car id already exists"
// @Failure 500 {object} map[string]interface{} "Internal server error"
// @Router /api/cars [post]
func createCarHandler(svc *catalog.Service) http.HandlerFunc {
return func(w http.ResponseWriter, r *http.Request) {
var req transport.CarCreateRequest
if err := json.NewDecoder(r.Body).Decode(&req); err != nil {
writeError(w, http.StatusBadRequest, "bad_request", err.Error())
return
}
in := carFromWire(req.Car)
created, err := svc.CreateCar(r.Context(), catalog.CreateCarOptions{
ID: in.ID,
Name: in.Name,
OwnerID: in.OwnerID,
Visibility: in.Visibility,
Scale: in.Scale,
LengthMm: in.LengthMm,
WidthMm: in.WidthMm,
HeightMm: in.HeightMm,
WeightG: in.WeightG,
Chassis: in.Chassis,
Motor: in.Motor,
Battery: in.Battery,
Drive: in.Drive,
TopSpeedMs: in.TopSpeedMs,
ColorHex: in.ColorHex,
AvatarURL: in.AvatarURL,
})
if err != nil {
status, code := mapCatalogError(err)
writeError(w, status, code, err.Error())
return
}
writeJSON(w, http.StatusCreated, transport.CarAck{Ok: true, ID: created.ID, Car: carToWire(created)})
}
}
// ---------------------------------------------------------------------------
// Method routers
// ---------------------------------------------------------------------------
// tracksRouter routes /api/tracks to either list (GET) or create (POST).
func tracksRouter(svc *catalog.Service) http.HandlerFunc {
return func(w http.ResponseWriter, r *http.Request) {
switch r.Method {
case http.MethodGet:
tracksHandler(svc)(w, r)
case http.MethodPost:
createTrackHandler(svc)(w, r)
default:
w.Header().Set("Allow", "GET POST")
writeError(w, http.StatusMethodNotAllowed, "method_not_allowed", r.Method)
}
}
}
// carsRouter routes /api/cars to either list (GET) or create (POST).
func carsRouter(svc *catalog.Service) http.HandlerFunc {
return func(w http.ResponseWriter, r *http.Request) {
switch r.Method {
case http.MethodGet:
carsHandler(svc)(w, r)
case http.MethodPost:
createCarHandler(svc)(w, r)
default:
w.Header().Set("Allow", "GET POST")
writeError(w, http.StatusMethodNotAllowed, "method_not_allowed", r.Method)
}
}
}