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Mirror the Telegram Mini App wrapper for VK: the SPA loads at a new /vk/ entry, authenticates from VK's signed launch parameters, and provisions a 'vk' platform identity — the minimum to run the game in VK test mode. - Gateway verifies the launch signature in-process (internal/vkauth: HMAC-SHA256 over the sorted vk_* params under GATEWAY_VK_APP_SECRET, base64url) — a pure offline check, no side-service. New auth.vk op (gated on the secret), backendclient.VKAuth, /vk/ SPA mount. - Backend: KindVK + ProvisionVK/vkSeed, /sessions/vk handler, identity kind widened to include 'vk' (migration 00005, expand-contract). - UI: src/lib/vk.ts (VK Bridge, lazy-imported), bootVK + the /vk/ boot dispatch, encodeVKLogin + authVK across transport/client/mock. VK omits the name from the signed params, so the client reads it via VKWebAppGetUserInfo as an unsigned display seed. - Deploy: /vk in the edge Caddyfile, GATEWAY_VK_APP_SECRET wired through compose + .env.example + CI (TEST_) + prod-deploy (PROD_). - Admin console: surface the VK user id (link to the VK profile) next to the Telegram id on the user card. - Docs: ARCHITECTURE §12/§13, FUNCTIONAL (+ _ru), gateway README; VK integration reference under .claude/. Signature algorithm verified against dev.vk.com plus independent Node/Python references and a %2C edge-case vector.
265 lines
9.8 KiB
Go
265 lines
9.8 KiB
Go
package server
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import (
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"errors"
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"net/http"
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"github.com/gin-gonic/gin"
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"github.com/google/uuid"
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"go.uber.org/zap"
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"scrabble/backend/internal/account"
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)
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// The /api/v1/internal/sessions/* endpoints are gateway-only: the gateway has
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// already validated the originating credential (Telegram initData, an email
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// code, or a guest bootstrap) and forwards the result here to provision the
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// account and mint the opaque session. The backend trusts the gateway on this
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// segment (docs/ARCHITECTURE.md §12).
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// telegramAuthRequest carries the identity the connector extracted from a
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// validated initData payload. Username, FirstName and LanguageCode seed a
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// brand-new account's display name and language; BrowserTZ (the client's detected
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// "±HH:MM" UTC offset) seeds its time zone; StartParam is the validated launch
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// deep-link payload, which may seed the new account's variant preferences (first
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// contact only).
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type telegramAuthRequest struct {
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ExternalID string `json:"external_id"`
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Username string `json:"username"`
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FirstName string `json:"first_name"`
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LanguageCode string `json:"language_code"`
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BrowserTZ string `json:"browser_tz"`
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StartParam string `json:"start_param"`
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}
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// handleTelegramAuth provisions (or finds) the account bound to a Telegram
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// identity and mints a session for it, seeding a new account's display name and
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// language from the supplied Telegram fields (first contact only).
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func (s *Server) handleTelegramAuth(c *gin.Context) {
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var req telegramAuthRequest
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if err := c.ShouldBindJSON(&req); err != nil || req.ExternalID == "" {
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abortBadRequest(c, "external_id is required")
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return
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}
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acc, created, err := s.accounts.ProvisionTelegram(c.Request.Context(), req.ExternalID, req.LanguageCode, req.Username, req.FirstName, req.BrowserTZ)
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if err != nil {
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s.abortErr(c, err)
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return
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}
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if created {
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// First registration: re-evaluate moderated-chat write access, so a user who
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// joined the chat before registering is granted on the spot (no chat_member
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// event fires on registration).
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s.publishChatAccessChange(acc.ID)
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// A promo deep-link may seed this brand-new account's variant preferences (e.g.
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// English Scrabble alongside the default Erudit). Best-effort: an absent or
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// malformed payload leaves the account on its defaults, and a write failure must
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// not block the session mint.
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if seed := account.SeedVariantsFromStartParam(req.StartParam); len(seed) > 0 {
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if _, err := s.accounts.SetVariantPreferences(c.Request.Context(), acc.ID, seed); err != nil {
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s.log.Warn("telegram: seed variant preferences failed",
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zap.String("account", acc.ID.String()), zap.Error(err))
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}
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}
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}
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s.mintSession(c, acc)
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}
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// vkAuthRequest carries the identity the gateway extracted from verified VK launch
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// params. LanguageCode (vk_language) and DisplayName (read client-side via
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// VKWebAppGetUserInfo, since VK omits the name from the signed params) seed a brand-new
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// account's language and display name; BrowserTZ (the client's detected "±HH:MM" UTC
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// offset) seeds its time zone. All seeds apply on first contact only.
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type vkAuthRequest struct {
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ExternalID string `json:"external_id"`
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LanguageCode string `json:"language_code"`
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DisplayName string `json:"display_name"`
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BrowserTZ string `json:"browser_tz"`
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}
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// handleVKAuth provisions (or finds) the account bound to a VK identity and mints a
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// session for it, seeding a new account's language and display name from the supplied VK
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// fields (first contact only). Unlike Telegram there is no moderated-chat re-evaluation
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// or deep-link variant seed: a fresh VK account has no Telegram chat eligibility and the
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// MVP carries no launch deep link.
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func (s *Server) handleVKAuth(c *gin.Context) {
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var req vkAuthRequest
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if err := c.ShouldBindJSON(&req); err != nil || req.ExternalID == "" {
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abortBadRequest(c, "external_id is required")
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return
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}
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acc, _, err := s.accounts.ProvisionVK(c.Request.Context(), req.ExternalID, req.LanguageCode, req.DisplayName, req.BrowserTZ)
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if err != nil {
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s.abortErr(c, err)
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return
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}
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s.mintSession(c, acc)
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}
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// pushTargetRequest asks for a user's out-of-app push routing data by account id.
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type pushTargetRequest struct {
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UserID string `json:"user_id"`
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}
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// pushTargetResponse carries what the gateway needs to route an out-of-app push:
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// the recipient's Telegram external_id (empty when they have no Telegram
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// identity, e.g. a guest or email-only account), the language the single bot renders
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// the message in (the account's interface language), and whether they confined
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// notifications to the in-app stream.
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type pushTargetResponse struct {
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ExternalID string `json:"external_id"`
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Language string `json:"language"`
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NotificationsInAppOnly bool `json:"notifications_in_app_only"`
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}
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// handlePushTarget resolves a user id to the data the gateway needs to deliver an
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// out-of-app Telegram notification — the gateway-only internal counterpart of the
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// in-app push stream. A user with no Telegram identity yields an empty external_id,
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// which the gateway treats as "no out-of-app channel".
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func (s *Server) handlePushTarget(c *gin.Context) {
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var req pushTargetRequest
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if err := c.ShouldBindJSON(&req); err != nil || req.UserID == "" {
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abortBadRequest(c, "user_id is required")
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return
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}
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uid, err := uuid.Parse(req.UserID)
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if err != nil {
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abortBadRequest(c, "user_id must be a uuid")
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return
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}
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acc, err := s.accounts.GetByID(c.Request.Context(), uid)
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if err != nil {
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s.abortErr(c, err)
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return
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}
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ext, err := s.accounts.IdentityExternalID(c.Request.Context(), uid, account.KindTelegram)
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if err != nil && !errors.Is(err, account.ErrNotFound) {
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s.abortErr(c, err)
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return
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}
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c.JSON(http.StatusOK, pushTargetResponse{
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ExternalID: ext,
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Language: acc.PreferredLanguage,
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NotificationsInAppOnly: acc.NotificationsInAppOnly,
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})
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}
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// guestAuthRequest carries the guest bootstrap's optional time-zone seed: BrowserTZ
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// (the client's detected "±HH:MM" UTC offset) is written to the new guest account's
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// time zone, so robot timing is anchored to the player's zone from the first game.
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type guestAuthRequest struct {
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BrowserTZ string `json:"browser_tz"`
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}
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// handleGuestAuth provisions a fresh ephemeral guest account and mints a session,
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// seeding its time zone from the optional detected browser offset.
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func (s *Server) handleGuestAuth(c *gin.Context) {
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// The body is optional: an absent or malformed one simply yields no time-zone seed
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// (the account keeps the UTC default), so a bind error must not fail the bootstrap.
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var req guestAuthRequest
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_ = c.ShouldBindJSON(&req)
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acc, err := s.accounts.ProvisionGuest(c.Request.Context(), req.BrowserTZ)
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if err != nil {
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s.abortErr(c, err)
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return
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}
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s.mintSession(c, acc)
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}
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// emailRequest is an email-login code request. BrowserTZ (the client's detected
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// "±HH:MM" UTC offset) seeds the time zone of an account provisioned here on first
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// contact (the email account is created at the request step, not at login).
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type emailRequest struct {
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Email string `json:"email"`
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BrowserTZ string `json:"browser_tz"`
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}
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// handleEmailRequest issues a login confirm-code to the email. It always reports
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// success once the address is well-formed, so the response does not reveal
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// whether an account already exists.
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func (s *Server) handleEmailRequest(c *gin.Context) {
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var req emailRequest
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if err := c.ShouldBindJSON(&req); err != nil || req.Email == "" {
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abortBadRequest(c, "email is required")
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return
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}
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if _, err := s.emails.RequestLoginCode(c.Request.Context(), req.Email, req.BrowserTZ); err != nil {
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s.abortErr(c, err)
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return
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}
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c.JSON(http.StatusOK, okResponse{OK: true})
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}
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// emailLoginRequest verifies an email login code.
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type emailLoginRequest struct {
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Email string `json:"email"`
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Code string `json:"code"`
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}
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// handleEmailLogin verifies the code and mints a session for the owning account.
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func (s *Server) handleEmailLogin(c *gin.Context) {
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var req emailLoginRequest
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if err := c.ShouldBindJSON(&req); err != nil || req.Email == "" || req.Code == "" {
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abortBadRequest(c, "email and code are required")
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return
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}
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acc, err := s.emails.LoginWithCode(c.Request.Context(), req.Email, req.Code)
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if err != nil {
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s.abortErr(c, err)
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return
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}
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s.mintSession(c, acc)
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}
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// tokenRequest carries an opaque session token.
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type tokenRequest struct {
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Token string `json:"token"`
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}
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// handleResolveSession resolves a token to its account id. The gateway calls it
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// on a session-cache miss.
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func (s *Server) handleResolveSession(c *gin.Context) {
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var req tokenRequest
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if err := c.ShouldBindJSON(&req); err != nil || req.Token == "" {
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abortBadRequest(c, "token is required")
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return
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}
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sess, err := s.sessions.Resolve(c.Request.Context(), req.Token)
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if err != nil {
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s.abortErr(c, err)
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return
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}
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// is_guest is best-effort: a transient account read must not fail an otherwise
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// valid resolve (the auth hot path), so a read error falls back to false; the
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// per-operation backend gate remains the authoritative guest check.
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resp := resolveResponse{UserID: sess.AccountID.String()}
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if acc, err := s.accounts.GetByID(c.Request.Context(), sess.AccountID); err == nil {
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resp.IsGuest = acc.IsGuest
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}
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c.JSON(http.StatusOK, resp)
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}
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// handleRevokeSession revokes the session for a token (idempotent).
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func (s *Server) handleRevokeSession(c *gin.Context) {
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var req tokenRequest
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if err := c.ShouldBindJSON(&req); err != nil || req.Token == "" {
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abortBadRequest(c, "token is required")
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return
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}
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if err := s.sessions.Revoke(c.Request.Context(), req.Token); err != nil {
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s.abortErr(c, err)
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return
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}
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c.JSON(http.StatusOK, okResponse{OK: true})
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}
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// mintSession creates a session for acc and writes the credential response.
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func (s *Server) mintSession(c *gin.Context, acc account.Account) {
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token, _, err := s.sessions.Create(c.Request.Context(), acc.ID)
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if err != nil {
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s.abortErr(c, err)
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return
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}
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c.JSON(http.StatusOK, sessionResponseFor(token, acc))
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}
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