3a72bc29badc4dd9d0923abd3562d3f1a5f7d0ae
50 Commits
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a9c8f1ecfe |
test(offline): real-dictionary move-generator conformance in CI
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Phase A (A4): prove the ported move generator (#188) against the FULL shipped dictionaries, not just the tiny samples — the deep graphs and complete 26/33-letter alphabets the samples cannot reach. - backend/cmd/movegen: add a -dawg-dir mode that emits per-variant golden move-gen vectors from the real dawgs (a bounded first-move + a blank case + a deep 7-tile mid-game position). Regenerated in CI to /tmp, never committed (like the dictgen/validategen vectors), so no dictionary version is pinned into the repo. - ui/src/lib/dict/generate.realparity.test.ts: env-gated (DICT_DAWG_DIR + DICT_MOVEGEN_DIR) parity against that golden — 9 positions across scrabble_en / scrabble_ru / erudit_ru match the Go solver exactly. Skips cleanly when unset. - .gitea/workflows/ci.yaml: the conformance job now generates the movegen golden and points the gated vitest at it (DICT_MOVEGEN_DIR). |
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c90331b189 |
fix(ci): prod build needs EXPORT_SIGN_KEY for compose interpolation
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The first v1.8.0 prod-deploy build job failed: `docker compose build` interpolates the WHOLE compose file, and the backend's :?-guarded EXPORT_SIGN_KEY — added with the finished-game export after the last prod release (v1.7.0), so the prod build never exercised it — was absent from the build job's env, tripping the guard before any image built. Prod was untouched (build-only failure: no image pushed, no deploy, no migration). Add EXPORT_SIGN_KEY (audited every :?-guarded compose var against the build job env — it was the only genuinely-missing one; TELEGRAM_MINIAPP_URL is derived in the run step). Verified by reproducing the build-job env + `docker compose config`. |
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446ea2ac45 |
fix(ci): arm the maintenance flag on the test-contour deploy
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The maintenance overlay never showed on the test contour: only prod-deploy.sh raised
the caddy maintenance flag, so a test redeploy was a bare gateway/backend recreate — the
SPA saw a transient 502 ("Reconnecting…"), never the 503 + X-Scrabble-Maintenance marker
the overlay keys on. So the feature (PR #171) was unverifiable off prod.
Raise the flag around the recreate in ci.yaml's deploy job too, mirroring prod. Ordering
matters because of the config reseed: ci does `rm -rf $conf` + recreate, so the running
caddy sits on the stale pre-reseed bind mount and cannot see a flag written to the new
dir until it is recreated. So: raise the flag, force-recreate caddy FIRST (onto the fresh
mount, where it carries the flag and 503s), then recreate gateway/backend (the window),
then the other config services, then lower it. A trap clears the flag if the step fails,
and the next deploy's reseed wipes a stale one — so the contour can't stick in maintenance.
The caddy-routed probes run in the next step, after the flag is lowered.
Prod was already correct (prod-deploy.sh); this only makes the test contour faithful so the
overlay + reload can be seen there. An open SPA must already be on the PR-#171 bundle (which
carries the overlay code) — reload once to bootstrap onto it.
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a0021d1994 |
feat(gateway): wire GATEWAY_HONEYTOKEN through the deploy
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The planted honeytoken bearer trap already existed in the gateway + compose, but no workflow fed GATEWAY_HONEYTOKEN, so it was always empty (inert). Wire the per-contour TEST_/PROD_GATEWAY_HONEYTOKEN secret into the ci deploy, prod-deploy and prod-rollback env (the prod path via the shared deploy/write-prod-env.sh), document it (deploy/README + .env.example), and fix the stale compose comment. Empty secret = trap off (no ":?" guard), so a deploy is safe before the operator sets the value + plants the bait. On prod (IP ban on) presenting it earns a 24h ban + alarm; on test (ban off) it logs + a ban metric. GF_SMTP_ENABLED is enabled separately via the TEST_/PROD_GF_SMTP_ENABLED Gitea variables (=true) — no code change. |
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7f85362288 |
chore(deploy): dedupe & regroup Gitea CI variables/secrets
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Collapse identical TEST_/PROD_ pairs to single unprefixed Gitea entries, derive the public URLs from PUBLIC_BASE_URL at deploy time, and share the prod env.sh renderer between deploy and rollback. - Collapse to one unprefixed variable: DICT_VERSION, SMTP_RELAY_HOST/PORT/TLS, GRAFANA_SMTP_PORT, VITE_VK_APP_LINK, VITE_VK_APP_ID (one Selectel relay + one pair of VK apps serve every contour). Secrets collapsed by the owner: SMTP_RELAY_USER/PASS, GATEWAY_VK_APP_SECRET, GATEWAY_VK_ID_CLIENT_SECRET. - Derive at deploy from PUBLIC_BASE_URL (no longer stored): TELEGRAM_MINIAPP_URL, GRAFANA_ROOT_URL, VITE_VK_ID_REDIRECT_URL. Removes the prod/test asymmetry and fills the missing test VITE_VK_APP_ID (VK web login was half-configured on test). - Extract deploy/write-prod-env.sh + write-prod-bot-env.sh, shared by prod-deploy and prod-rollback so the two cannot drift: a rollback now re-renders the FULL runtime env (email / VK login / Grafana alerts previously went dark after a rollback) and passes TELEGRAM_SUPPORT_CHAT_ID. - Single-source DICT_VERSION (CI env + both deploys), fix the v1.3.0/v1.3.1 drift in .env.example/README, correct the misleading honeytoken/abuse-ban compose comment, and rewrite the deploy/README variable list (+ the previously undocumented GATEWAY_VK_APP_SECRET and TELEGRAM_SUPPORT_CHAT_ID). The Gitea variables are reworked via the API; the stale TEST_/PROD_ entries are deleted after the test contour goes green. |
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2c465c01d2 |
feat(account): VK ID web login to link a VK identity from a browser
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A browser has no signed VK Mini App launch params, so linking VK on the web uses
VK ID's raw OAuth 2.1 flow (PKCE, no @vkid/sdk): the SPA redirects to VK's hosted
login and returns with an authorization code, which the gateway exchanges
server-side (confidential, under the VK "Web" app's protected key) for the trusted
vk user id — then the existing link/merge machinery attaches or merges it.
- fbs LinkVKRequest{code, device_id, code_verifier}; codec + TS bindings.
- backend link.Service ConfirmVK/MergeVK/attachVK (KindVK, mirror Telegram),
handleLinkVK[Merge], routes /user/link/vk[/merge], backendclient LinkVK[Merge].
- gateway internal/vkid confidential code exchange (id.vk.com/oauth2/auth);
transcode link.vk.confirm/merge (registered only when configured) + config
GATEWAY_VK_ID_{APP_ID,CLIENT_SECRET,REDIRECT_URL} + main wiring.
- UI lib/vkid (PKCE authorize redirect + callback), Profile "Link VK" control,
boot callback handling; a merge re-authorizes for a fresh code (VK codes are
single-use). Web-only (a redirect strands a Mini App webview).
- Deploy: VITE_VK_APP_ID + VITE_VK_ID_REDIRECT_URL build args + gateway env,
ci.yaml/prod-deploy TEST_/PROD_ vars, compose/Dockerfile/.env.example/README.
- Tests: vkid exchange unit (string/number user_id, id_token fallback, errors),
transcode link.vk, backend ConfirmVK/MergeVK inttest, codec encodeLinkVK.
- Docs: ARCHITECTURE §4, FUNCTIONAL(+ru), gateway README.
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854c4b3005 |
fix(deploy): stage blackbox config + derive bare Grafana SMTP from-address
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Two contour-deploy failures from PR4: (1) the deploy did not stage deploy/blackbox/, so blackbox_exporter crash-looped on a missing config mount — add blackbox to the ci.yaml cp and the prod-deploy tar; (2) Grafana rejects the 'Name <addr>' From form the backend go-mail accepts and validates it even when SMTP is disabled, crash-looping Grafana — the deploy now splits SMTP_RELAY_SERVICE_FROM into a bare GF_SMTP_FROM_ADDRESS + GRAFANA_SMTP_FROM_NAME (handles both display and bare forms). Verified the sed split + compose render. |
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ec1bdfca00 |
fix(deploy): Grafana SMTP reuses relay host + explicit GRAFANA_SMTP_PORT
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Drop the separate GRAFANA_SMTP_HOST (it duplicated SMTP_RELAY_HOST): Grafana differs from the backend only in needing the STARTTLS port, so GF_SMTP_HOST is composed from SMTP_RELAY_HOST + GRAFANA_SMTP_PORT (an explicit per-contour var, no magic default), reusing SMTP_RELAY_USER/PASS. Wired through ci/prod/.env.example/README. |
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55f6176538 |
feat(deploy): Grafana infra alerts + blackbox cert probe + admin-alert wiring
Grafana: GF_SMTP from the shared relay (STARTTLS host:port) + alerting provisioning (contact point → SERVICE_EMAIL, route-all policy, and rules for scrape-target down, gateway internal-error rate + p99 latency, host mem/disk/cpu, postgres connections, and TLS cert < 20 days). All rules noDataState=OK so an absent metric never false-alerts. blackbox_exporter probes the edge caddy's TLS (probe_ssl_earliest_cert_expiry) — effective on prod (caddy terminates TLS; contour caddy is HTTP-only so the metric is absent). Wires the new env through compose (backend admin From/To, Grafana SMTP), ci.yaml (TEST_), prod-deploy (PROD_ + env.sh), .env.example and the README var table. |
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c702f1bdac |
fix(email): explicit TLS mode for non-standard relay ports
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The 465-only implicit-TLS heuristic mis-classified Selectel's SSL port (1127), which the mailer would have dialled with STARTTLS and failed. Add BACKEND_SMTP_TLS (ssl|starttls) — empty still derives the mode from the port (implicit on 465, else STARTTLS) — and dial implicit TLS with WithSSL()+WithPort so any port works, not just 465. Wire SMTP_RELAY_TLS through compose/ci/prod/.env.example and document it (Selectel: 1127 = SSL, 1126 = STARTTLS). Unit-tested. |
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a29e00ee13 |
feat(deploy): wire the SMTP relay through every contour
Add the backend confirm-code relay env to compose (BACKEND_SMTP_HOST/PORT/ USERNAME/PASSWORD/FROM + BACKEND_PUBLIC_BASE_URL), sourced from SMTP_RELAY_* / SMTP_RELAY_FROM / PUBLIC_BASE_URL. An empty host keeps the backend on the log mailer so a contour without relay credentials still boots. Port defaults to 465 (implicit TLS). Map the TEST_ set in ci.yaml and the PROD_ set in prod-deploy.yaml (both the deploy-main env and the env.sh heredoc). Document the six variables in .env.example and the deploy README (secrets: user/pass; variables: host/port/from + the per-contour PUBLIC_BASE_URL, required whenever the relay host is set). |
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d5fbaa3034 |
feat(export): server-rendered artifacts behind one signed download URL (#160)
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The finished-game export (GCG + a new PNG of the final position) is one signed, short-lived relative URL (game.export_url; HMAC-SHA256, 10-min TTL, BACKEND_EXPORT_SIGN_KEY) resolved against the client's own origin and delivered by the best affordance each platform has (five on-device review rounds): - TG Android/desktop: native showPopup chooser -> native downloadFile dialog (bridge-only chain, activation-safe). - TG iOS: app-modal chooser -> OS share sheet with the fetched file (a popup callback cannot supply the activation the sheet needs). - VK iOS: VKWebAppDownloadFile for both formats. - VK Android: the PNG opens in VK's native image viewer, the GCG copies to the clipboard (the VK Android downloader hangs on any download, Content-Length/Range notwithstanding). - VK desktop iframe / desktop browsers: plain anchor downloads. - Mobile browsers: the OS share sheet (fetch-then-share). - Legacy TG (< Bot API 8.0): app modal + GCG clipboard, no image option. The PNG is rasterized on demand by the new internal `renderer` sidecar (node:22-slim + skia-canvas + baked Liberation/Noto Color Emoji fonts) executing the SAME ui/src/lib/gameimage.ts the ui project unit-tests; the backend rebuilds the render payload from the journal + engine.AlphabetTable, and the device date locale, IANA time zone and localized non-play labels ride the signed URL. Nothing is stored — the artifact re-derives from the immutable journal on each GET. The gateway forwards /dl/* (caddy @gateway matcher extended) behind the per-IP public rate limiter and serves bytes via http.ServeContent. Deploy: renderer service in compose + prod overlay + rolling order + prod push list; TEST_/PROD_EXPORT_SIGN_KEY secrets; the sidecar smoke runs in the ui CI job. Docs: ARCHITECTURE, FUNCTIONAL(+_ru), UI_DESIGN, TESTING, deploy/README, renderer/README. |
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5f574a765d |
feat(landing): VK entry logo + restore the Telegram channel build-arg
Add the VK Mini App logo next to the Telegram one on the landing hero,
linked via the new VITE_VK_APP_LINK build-arg (full URL, wired through
compose, CI and prod-deploy from TEST_/PROD_VITE_VK_APP_LINK).
Also restore the landing's Telegram link itself: commit
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5689f7f6a3 |
feat: on-device move preview (local eval) with network fallback
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Score and validate a tentative move on-device instead of a per-arrangement network
round trip. The dawg reader and the validate/score/direction slice of the
scrabble-solver engine are ported to TypeScript (ui/src/lib/dict), pinned
byte-for-byte to the Go engine by a `conformance` CI job (full-dictionary reader
parity plus a battery of plays across every variant and both cross-word rules,
including the inferred orientation). The server stays authoritative — submit_play
re-validates — so the local result is an advisory accelerator only.
- backend: Registry.DictBytes + an authed GET /api/v1/user/dict/{variant}/{version}
(immutable) streaming the pinned per-game dawg; caddy routes /dict to the gateway.
- gateway: a session-gated /dict edge route proxying it; fetchDict on the transport.
- client: the dictionary loads on game open (low priority so it never starves the
game on a slow link; aborted at a 5s cap or when leaving the game), is cached in
IndexedDB (best-effort, self-healing on a rejected blob) and reused across
sessions; a warm-up overlay covers a cold load, then the network preview is the
fallback; a bad-connection breaker stops warming after repeated misses; the move
preview cancels its in-flight request when the tiles change.
- parity generators backend/cmd/{dictgen,validategen} + gated Vitest suites, run in
CI against the release dictionaries. A hidden debug readout lists the cached
dictionaries + breaker state, and its reset clears the cache.
- docs: ARCHITECTURE §5, TESTING, UI_DESIGN, FUNCTIONAL (+ru).
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3b7c7c077e |
chore(ci): bump dictionary test-suite seed to v1.3.1
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The scrabble-dictionary release v1.3.1 drops the obscene lexicon (mat). Bump the centralised CI seed so unit/integration jobs validate against the same dictionary the prod deploy now pins (vars.PROD_DICT_VERSION=v1.3.1). |
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65c194264c |
feat(vk): embed the game as a VK Mini App
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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. |
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6a602aefae |
feat(telegram): bot support relay — per-user forum topics
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Users who DM the bot anything but /start are relayed into a private forum supergroup, one topic per user. Operators (the chat's admins) reply in the topic and the bot copies it back to the user; an info card opening each topic carries a Block/Unblock toggle and a Clear button. State is a small JSON file on a new /data volume — the bot host has no database. Off by default (TELEGRAM_SUPPORT_CHAT_ID=0): the prod bot is unchanged until the operator sets the chat id and adds the bot as a forum admin. - internal/support: concurrency-safe JSON store (topic map, block list, relayed message ids) with field-targeted mutators and atomic save - bot/support.go: relay both ways via copyMessage, short-TTL admin cache, callback buttons, per-user topic-create lock, loop guard (skip the bot's own posts), reopen a deleted topic on the next message - config + compose + CI/prod-deploy: TELEGRAM_SUPPORT_CHAT_ID per contour + TELEGRAM_SUPPORT_STATE_DIR; bot-state named volume; /data pre-owned by UID 65532 so a fresh volume is writable under distroless - docs: ARCHITECTURE §15 + decision record, FUNCTIONAL (+ru), README |
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bb0e3e17e5 |
chore(deploy): pin dictionary seed to v1.3.0
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Bump DICT_VERSION v1.2.1 -> v1.3.0 across the seed surface: .env.example, the compose build-arg default, both backend Dockerfile stages, the loadtest Dockerfile, the CI dawg-download version, and the deploy/backend docs. v1.3.0 drops the abbreviation class from the Russian word list (scrabble-dictionary #6). This only seeds a FRESH volume; a live contour/prod volume is unaffected (the .seed_version marker wins — seed-drift guard) and moves to v1.3.0 through the admin console (ARCHITECTURE §5). Per-contour deploy still overrides via TEST_/PROD_DICT_VERSION. |
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c59e522732 |
feat(deploy): visible prod-deploy jobs + manual prod-rollback
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- prod-deploy.yaml is now four visible sequential jobs (build -> deploy-main -> deploy-bot -> verify) so the rollout stages show in the Actions UI; the per-service rolling stays in the deploy-main log. - prod-rollback.yaml: a separate manual workflow_dispatch. Leave target_version blank to roll back to the previous deployed version (the host now tracks DEPLOYED_TAG + PREVIOUS_TAG), or pick a release tag. Re-deploys an already published image rolling + health-gated, image-only (no rebuild, no DB migration). - prod-deploy.sh tracks the previous tag (commit_tag) for the blank-input rollback. - Docs: ARCHITECTURE §13 + deploy/README runbook cover versioning + rollback. |
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171b71b7e0 |
feat(deploy): manual prod-deploy pipeline with rolling rollback (Stage 18)
A workflow_dispatch-only rollout from master (confirm=deploy): - .gitea/workflows/prod-deploy.yaml builds + pushes the images to the registry, ships the compose/config/certs/env over SSH, deploys the main host via prod-deploy.sh, then the bot host, then verifies the public site. - deploy/prod-deploy.sh rolls the main stack one service at a time in dependency order (postgres->backend->gateway->landing->validator->caddy), health-checking after each; any failure rolls the whole stack back to the previous tag. A schema migration adds a maintenance window: the backend (sole writer) is stopped for a consistent pg_dump before migrating; image rollback stays DB-safe (expand-contract), the dump is kept for a manual restore. - prod overlay: pull the four main images from the registry by tag. - Runtime secrets reach the host via a sourced env.sh (single-quoted values keep the bcrypt hash's literal $ intact, unlike a --env-file). |
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2b399d0838 |
feat(deploy): prod compose split + host-memory monitoring (Stage 18)
Split the contour across the two prod hosts and retune for the small main host: - Gate vpn+bot to the telegram-local profile. The CI test deploy now passes --profile telegram-local so the test contour still brings them; the prod main host omits both, and the prod bot runs standalone from docker-compose.bot.yml. - docker-compose.prod.yml (main-host overlay): publish caddy 80/443 (no host caddy in prod; caddy owns ACME) and gateway 9443 (the remote bot dials in over mTLS); GOMAXPROCS=2, smaller memory caps and 7d Prometheus retention for the 2 vCPU / 1.9 GiB host. It launches deliberately undersized; resize reactively. - docker-compose.bot.yml: standalone bot for the tg host (no VPN, OTLP off since otelcol is unreachable from there, dials the main host's bot-link). - Add node_exporter + a Prometheus scrape so host memory pressure (the OOM signal on the tight main host), not just per-container docker_stats, is visible. - Soften AWG_CONF to a default: only the profiled vpn sidecar consumes it, and compose interpolates profiled-out services too, so prod must not require it. |
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e71e40eef5 |
feat(telegram): promo bot + channel-chat moderation gate
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Add a second standalone promo bot to the bot container (answers /start with a localized message + a URL button into the main bot's Mini App) and gate write access in a channel's linked discussion chat: grant on join when the Telegram user is registered and neither admin-suspended nor holding a new chat_muted role, and revoke/grant on the matching moderation change for a member currently in the chat. Eligibility (registered AND NOT suspended AND NOT chat_muted; the game suspension dominates) is resolved once in the backend and reached two ways: the bot's join-time unary ResolveChatEligibility over the existing mTLS bot-link, and a backend chat_access_changed event -> gateway -> ChatGate command (idempotent; a temporary-block-expiry sweeper may over-emit). The bot guards the block/unblock path with getChatMember, since bots cannot list members. A web_app button cannot open another bot's Mini App (it signs initData with the sending bot's token), so the promo button is a t.me ?startapp URL reusing the UI's VITE_TELEGRAM_LINK. The bot must be a chat admin with the restrict-members right and chat_member in its allowed updates. No schema change: chat_muted reuses the data-driven account_roles table. |
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6aeb529f13 |
feat(telegram): split connector into home validator + remote bot
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CI / ui (pull_request) Successful in 53s
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CI / deploy (pull_request) Failing after 2m6s
Move all Telegram egress off the main host. The single connector held the bot token, long-polled Telegram and answered the gateway/backend over the trusted internal network, so the whole component (including login validation) shared fate with its VPN sidecar. Split it into two binaries that share the token: - cmd/validator (home, no VPN): Mini App initData + Login Widget HMAC only, never calls the Bot API. The gateway dials it for Telegram auth, so game login is now independent of Telegram reachability. - cmd/bot (remote): Bot API long-poll + sendMessage, the only component reaching Telegram. It holds no inbound port — it dials the gateway over a new reverse mTLS bot-link (pkg/proto/botlink/v1) and executes the send commands the gateway pushes. The gateway funnels sends to the bot-link: out-of-app push is fire-and-forget (at-most-once, dropped if no bot is connected); the backend admin broadcasts reach a gateway-served relay that forwards them and awaits the bot's ack (SendToUser/SendToGameChannel contract preserved). mTLS (pkg/mtls) is the one inter-service link that leaves the trusted segment; validator<->gateway and the relay stay plaintext internal. The bot is Telegram-rate-limited. One bot now; the gateway bot registry, an owns_updates flag and per-command ids leave seams for N later. Webhook rejected (one URL per token, adds inbound + a static address). The unified test contour runs the split (the bot keeps its VPN sidecar and dials the gateway by its internal name; bot-link certs from deploy/gen-certs.sh, generated in CI). The prod wiring — the bot on a separate host (no VPN), the gateway bot-link port published, PROD_ certs with scheduled rotation, an SSH deploy of both hosts together — is the deferred final stage (PRERELEASE.md TX, Stage 18). Docs: ARCHITECTURE, PRERELEASE (phase TX), platform/telegram + gateway + backend + deploy READMEs, FUNCTIONAL(+ru), CLAUDE.md, .env.example. |
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9824214fd7 |
ci(deploy): probe backend /readyz so a dead backend fails the deploy (#94)
The post-deploy probe checked only the static landing and the gateway-served SPA shell, so a crash-looping backend passed the deploy green. Add an http://backend:8080/readyz probe on the internal network (and dump backend logs on failure) so an unready backend fails the deploy loudly. |
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a5db10c46e |
feat(engine,deploy): seed-drift guard + track current dictionary release
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CI / ui (pull_request) Successful in 54s
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CI / deploy (pull_request) Successful in 1m12s
The dictionary release moved to v1.2.1 while DICT_VERSION stayed pinned at v1.0.0 in CI and the image/compose seed defaults. Two problems: 1. CI validated against a stale dictionary. 2. The contour seed could be bumped on a live volume, which silently relabels the already-seeded bytes — voiding games pinned to the prior label and serving the wrong dictionary for new ones. The flat DAWGs carry no embedded version, so this drift was undetectable. Changes: - Seed-drift guard: OpenWithVersions records the flat dir's version in a .seed_version marker on first boot and refuses to start when a later BACKEND_DICT_VERSION disagrees. DICT_VERSION is now the seed for a *fresh* volume only; a live contour migrates through the admin console (old versions stay resident, in-progress games keep replaying). - Track the current release: CI's DICT_VERSION centralised to one workflow-level env (v1.2.1); image/compose/.env seed defaults bumped to v1.2.1. The deploy job keeps reading the per-contour vars.TEST_DICT_VERSION. - Docs: ARCHITECTURE §5 (decision record), backend/deploy READMEs, PRERELEASE tracker (DV row). Verified locally against the v1.2.1 artifact: gofmt, build, vet, unit and integration (-tags=integration) all green. |
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57c778f9b2 |
feat(telegram,game): single bot + per-user variant preferences
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Collapse the two per-language Telegram bots into one unified bot and
replace language-based variant gating with explicit per-user variant
preferences.
- Telegram: one bot; drop service_language and the supported_languages
set everywhere (DB, account, auth, FlatBuffers Session wire, gateway,
connector proto). The single bot renders chat and out-of-app push in
the recipient's preferred_language; remove the game-language push
routing override (notify Intent.Language / push Event.language).
- Preferences: new accounts.variant_preferences (text[], DB default
{erudit_ru}, CHECK non-empty + subset of the three variants). Gates
the New Game picker, vs-AI and the friend invitation the player
creates, enforced server-side (HTTP 400 otherwise); an invited friend
may still accept any variant. Edited on the Settings screen; variants
are Erudit-first everywhere.
- Admin: drop the per-bot language selectors (broadcast / send-to-user)
and the feedback channel_lang column/field.
- Env/CI: collapse TELEGRAM_BOT_TOKEN_{EN,RU}, TELEGRAM_GAME_CHANNEL_ID_{EN,RU},
VITE_TELEGRAM_LINK{,_EN,_RU} and VITE_TELEGRAM_GAME_CHANNEL_NAME_{EN,RU}
to single unsuffixed names; drop GATEWAY_DEFAULT_SUPPORTED_LANGUAGES.
- Docs updated (ARCHITECTURE, FUNCTIONAL + _ru, platform/telegram, gateway,
backend, ui, UI_DESIGN, PRERELEASE).
The migration squash is deferred to a follow-up PR.
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03eb8044ff |
feat(ui): real friend-invite share with a per-bot link
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CI / ui (pull_request) Successful in 47s
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The friend-code 'share' was an <a> that just opened the bot. Make it a real share: Telegram's native share-to-chat picker inside the Mini App (openTelegramLink + t.me/share/url), the system share sheet (navigator.share) on the web, else copy the link. The shared deep link points at the same bot the player is in — it picks VITE_TELEGRAM_LINK_EN/_RU by the session's service language, falling back to the single VITE_TELEGRAM_LINK. Adds the per-bot build args across Dockerfile / compose / ci.yaml / .env / docs; PLAN TODO-5 updated. |
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8881214213 |
R6(a): de-stage code, docs, READMEs; split stage6_test
Mechanical, behaviour-preserving removal of Stage N / TODO-N / phase (RN) references from comments, doc-comments, service READMEs, the current-state docs (ARCHITECTURE, FUNCTIONAL+_ru, TESTING, UI_DESIGN), config-file comments, and the .fbs/.proto schema comments. PLAN.md / PRERELEASE.md / CLAUDE.md keep the stage history. - Rename the only stage-named identifiers: registerStage8 -> registerSocialOps, registerStage11 -> registerLinkOps (gateway transcode). - Split stage6_test.go: TestEmailLoginFlow -> email_test.go, TestGuestAutoMatchLeavesNoStats (+ provisionGuest) -> account_test.go. - Regenerated proto bindings (push.pb.go, telegram_grpc.pb.go) from the de-staged .proto comments; FB Go/TS bindings unchanged (flatc strips schema comments). go build/vet/gofmt clean across modules; integration typecheck and pnpm check green. |
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f20a4b49ff |
R3: split the landing into its own static container
- gateway/Dockerfile gains a `landing` target: caddy:2-alpine + the shared Vite build (identical build args keep the ui stage a single cached build); the gateway target drops landing.html from the embed. - The contour caddy routes /app/, /telegram/ and the Connect path to the gateway; the catch-all — the landing at / and any stray path — goes to the new landing service, so junk traffic is absorbed by static file serving. - deploy/landing/Caddyfile mirrors the webui caching (immutable assets, no-cache shells) and falls back unknown paths to the landing shell. - The gateway's / now 308-redirects to /app/ (keeps a local no-caddy run usable); webui placeholder landing.html removed. - CI deploy probe checks both / (landing) and /app/ (gateway). Verified: both images build; the landing container serves landing.html at / (no-cache) with junk-path fallback; the gateway image redirects / to /app/ and carries no landing content. |
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aa137e3558 |
R2: load-test harness + contour resource observability
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CI / deploy (pull_request) Failing after 3s
New scrabble/loadtest module (the pre-release stress harness): seeds 1000 guest + 10000 durable accounts with pre-created sessions directly in Postgres (token hash matches backend/internal/session), drives virtual players through the edge protocol (real 2-4p games assembled via invitations, mid-ranked legal moves generated locally by the embedded scrabble-solver — the edge carries no board, so the client replays history), plus nudge/chat/check-word/draft/profile/stats and a gateway-hammer that verifies the rate limiter. Prints a trip-report summary (per-op latency percentiles, result codes, live-event tally). Go unit tests cover the pure pieces; the DAWG-backed move test runs under BACKEND_DICT_DIR. Contour: add cAdvisor + postgres_exporter + a 'Scrabble - Resources' Grafana dashboard and the two Prometheus scrape jobs, for the R2/R7 stress-run resource baseline. CI: gate ./loadtest/... (path filter + vet/build/test). Docs: TESTING, ARCHITECTURE, project CLAUDE repo layout. |
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3fd279cf8c |
Landing v2: icon switchers, ephemeral theme, channel link, drop browser CTA
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Owner review-pass rework of the landing page: - Rename the per-language Telegram link build var VITE_TELEGRAM_LINK_EN/_RU -> VITE_TELEGRAM_GAME_CHANNEL_NAME_EN/_RU (it carries a channel username; the landing builds https://t.me/<name> -- the same channels the connector posts to via TELEGRAM_GAME_CHANNEL_ID_*). - Language switcher -> a globe icon dropdown (flags + names), saved + synced to the app prefs. - Theme switcher -> a sun/moon icon toggle, ephemeral (follows the system scheme, no auto, never persisted) -- galaxy-game style. - Drop the "Play in browser" CTA (no standalone-web onboarding yet). Docs: FUNCTIONAL(+ru), PLAN, deploy + ui READMEs. |
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e16076c89e |
Stage 17 round 6 (#16-20): landing page, /app/ move, cache + stream fixes
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CI / deploy (pull_request) Successful in 55s
Close out Stage 17 round 6: - Landing page at / — one Vite build with two entries (index.html = game SPA, landing.html = a lightweight landing reusing the theme/i18n/ aboutContent leaf modules, not the app store). - Move the web game SPA to /app/; the Telegram Mini App stays at /telegram/ (gateway webui.Handler(stripPrefix, indexName): landing at /, SPA at /app/ + /telegram/). Per-language "Play in Telegram" link via new VITE_TELEGRAM_LINK_EN/_RU build vars (button hides when unset). - Cache headers: hash-named /assets/* immutable, HTML shells no-cache (the go:embed zero modtime emitted no validators, so the client re-downloaded the whole bundle every launch). - Live-stream 15s abort fix: an immediate heartbeat on open + a 10s default interval (the first tick at 15s raced the edge idle timeout -> reconnect storm). PLAN/ARCHITECTURE(§13)/FUNCTIONAL(+ru)/gateway+ui+deploy READMEs updated; round 6 closed. Tests: gateway webui/connectsrv units, ui landing unit + e2e, full e2e (60) green. |
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74683f294f |
Stage 17 round 6 (#13/About): About screen content + app version from git describe
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- About screen: prominent localized title (Scrabble / Эрудит (Скрэббл)), a rules link (en/ru Wikipedia), and the Random-game / Game-with-friends sections; copy lives in a shared aboutContent module (the landing will reuse it). The random-game move limit inlines the 24h auto-match clock. - App version: Vite define __APP_VERSION__ from VITE_APP_VERSION (default 'dev'), wired as a Docker build-arg sourced from `git describe --tags --always` in the deploy step — no manual version bumps. The fallback keeps a plain/local build working. |
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c94cd3c3bf |
Stage 17 (contour round 2): Grafana Live/reload, rate-limit, iOS reconnect, hint/plaque/make-move UX
- Grafana: disable Live (GF_LIVE_MAX_CONNECTIONS=0) so its WebSocket no longer trips caddy Basic-Auth and re-prompts; admin console gains a Grafana nav link - deploy: force-recreate config-only services so reseeded Grafana dashboards / Caddyfile are actually picked up (the move-duration panel was invisible because the bind-mount went stale) - rate-limit: raise per-user budget 120/40 -> 300/80; UI skips reloading on the echo of the player's own move (fewer requests, no double-load) - iOS/Telegram reconnect: suppress the connection banner while backgrounded and for a short grace after resume; reconnect silently; wire visibilitychange + pageshow/pagehide + Telegram activated/deactivated (Bot API 8.0) - hint button disabled when 0 hints remain; nudge button shows a disabled state on your own turn - players plaque: invert so the active seat pops (accent chip, raised) and others recede - make-move UX: a direct ✅ commit button (no hold/popover); the Shuffle tab becomes ↩️ Reset while tiles are pending |
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c0b46a7ca6 |
Stage 17: path-conditional CI behind an aggregate gate + connector liveness probe; Grafana move-duration panel
- #10 a `changes` job path-filters unit/integration/ui; an always-running `gate` job aggregates them (success-or-skipped) and becomes the only required check - #9 deploy adds a Telegram-connector liveness probe (docker inspect: running, not restarting, stable restart count) with a VPN-handshake grace period - #1a Game-domain dashboard gains a 'Move think-time by phase (p50/p95)' panel - deploy README: branch protection now requires only CI / gate |
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831ecd0cab |
Fix dangling config binds: seed configs to a stable host path
Root cause of the Grafana "readdirent /etc/grafana/dashboards: no such file or
directory": the CI runner checks out into an ephemeral act workspace that is
removed after the job, so binding the compose config files straight from it
dangles the mounts in the long-lived containers (verified the act source dir is
emptied after the job). caddy/otelcol/prometheus/tempo read their config once at
startup so they survive, but would break on a restart — same latent bug.
Fix (mirrors ../galaxy-game's $HOME/.galaxy-dev/monitoring): the deploy job seeds
the config dirs to a stable $HOME/.scrabble-deploy and the compose binds them via
${SCRABBLE_CONFIG_DIR:-.} (local runs keep "."). Documented in the compose header,
deploy/README.md and the ci.yaml step.
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efbaf657c6 |
Stage 16: insert Stage 17 (test-contour verification); renumber prod deploy to 18
- PLAN.md: new Stage 17 "Test-contour verification & defect fixes" (exercise the deployed contour end-to-end and fix what it surfaces — connector liveness check, path-conditional CI); the former prod-deploy stage becomes Stage 18. - Renumber every "Stage 17" prod-deploy reference to "Stage 18" across docs, compose, Caddyfile, ci.yaml and CLAUDE.md; the post-Stage-14 split range is now "Stages 15–18". |
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0ea35fe991 |
Stage 16: connector test-env via UseTestEnvironment; pin it in the test contour
- bot.New now selects Telegram's test environment with the library's native tgbot.UseTestEnvironment() instead of a token += "/test" hack (functionally identical URL /bot<token>/test/METHOD, but idiomatic) + a bot test asserting the getMe path for both test and prod. - ci.yaml pins TELEGRAM_TEST_ENV=true for the test contour (it IS the test environment) instead of a TEST_TELEGRAM_TEST_ENV variable: removes the confusing double-TEST, telegram-specific, prefixed operator knob and the secret-vs-variable footgun. Prod (Stage 17) leaves it false. - deploy/README.md + PLAN.md updated. |
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ee8d4fd85e |
Stage 16: deploy/README.md — full environment-variable reference
- deploy/README.md documents the services, how to run it locally and in CI, and every variable: required (the four :? ones + ≥1 bot token) and optional with defaults, marked secret-vs-variable and with the TEST_/PROD_ Gitea mapping; plus the fixed internal wiring and the host-side setup. - ci.yaml maps the remaining POSTGRES_DB/USER, DICT_VERSION and LOG_LEVEL (unset renders empty -> the compose ":-" defaults apply), so every documented var is per-contour overridable. - .env.example points at the README for the full reference. |
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8700fbfae1 |
Stage 16: deploy infra & test contour
- backend + gateway multi-stage distroless Dockerfiles; the gateway embeds and
serves the SPA at / and /telegram/ via go:embed (committed dist placeholder,
real build baked in by the image's node stage)
- deploy/docker-compose.yml: backend + gateway + Postgres + Telegram connector
(VPN sidecar) + OTel Collector + Prometheus (15d) + Tempo (72h) + Grafana,
fronted by a caddy owning a single /_gm Basic-Auth (admin console + Grafana
subpath); inter-service on a private network, only caddy on the edge network
- new metrics: backend accounts_created_total{kind} (robots excluded) and an
in-memory gateway active_users{window=24h,7d} gauge
- CI: single .gitea/workflows/ci.yaml (unit/integration/ui + a gated test-contour
deploy) on the new feature/* -> development -> master branch model; the old
go-unit/integration/ui-test workflows are folded in; the connector-scoped
compose is retired (superseded by deploy/)
- docs: ARCHITECTURE §11/§12/§13, root + gateway READMEs, CLAUDE.md branching,
PLAN.md (stage 16 done + refinements + Stage 17 forward-notes)
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ec435c0e7f |
Stage 14: solver & dictionary split — consume published module + DAWG artifact (TODO-1/TODO-2)
- backend/go.mod pins gitea.iliadenisov.ru/developer/scrabble-solver v1.0.0; the engine's imports use the published module path; go.work drops the solver replace (GOPRIVATE fetches it directly from Gitea). The solver's wordlist/dictdawg are now public packages. - CI (go-unit, integration): drop the solver sibling-clone, set GOPRIVATE, and download the dictionary DAWG release artifact (scrabble-dawg-<DICT_VERSION>.tar.gz from the new scrabble-dictionary repo) for BACKEND_DICT_DIR. - Docs: ARCHITECTURE §5/§11/§13/§14 + backend/README updated to the published-module + release-artifact model. PLAN.md re-scoped Stage 14 to the split and added Stages 15 (deploy infra & test contour), 16 (prod contour), 17 (dual Telegram bots); TODO-1/TODO-2 marked done. |
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cf66ed7e26 |
Stage 9: Telegram integration (connector side-service, Mini App, out-of-app push)
Tests · Go / test (push) Successful in 7s
Tests · Integration / integration (push) Successful in 12s
Tests · Go / test (pull_request) Successful in 6s
Tests · Integration / integration (pull_request) Successful in 11s
Tests · UI / test (pull_request) Successful in 19s
New platform/telegram connector (own container, bot token only there): - go-telegram/bot long-poll loop: /start deep-links + Mini App launch button. - gRPC API pkg/proto/telegram/v1 (Telegram service): ValidateInitData, Notify (renders a localized message + deep-link button), SendToUser/SendToGameChannel (admin, wired in Stage 10). Generic methods are platform-agnostic (external_id). - Bot API base override for Telegram's test environment; Dockerfile + compose (VPN sidecar, no public ingress); README. Gateway: - initData validation relocated from the gateway into the connector; the gateway calls ValidateInitData over gRPC (GATEWAY_CONNECTOR_ADDR), drops the bot token, and deletes internal/auth. - Out-of-app push: runPushPump routes events whose recipient has no live in-app stream to connector.Notify, gated by /internal/push-target + the in-app-only flag (race-free de-dup); HasSubscribers added to the push hub. Backend: - Migration 00007 accounts.notifications_in_app_only (default true) + jetgen. - ProvisionTelegram seeds a new account's language/display name from the launch fields; IdentityExternalID reverse lookup; /internal/push-target handler. UI: - Telegram Mini App launch: detect initData, apply themeParams, authTelegram, route the deep-link start_param (g/i/f); /telegram/ guard redirects outside Telegram. Vite relative base + telegram-web-app.js. In-app-only profile toggle; share-to-Telegram link for a friend code. Vitest + Playwright coverage. Wire/docs/CI: fbs Profile/UpdateProfileRequest gain notifications_in_app_only (Go + TS); go.work uses ./platform/telegram; go-unit.yaml covers it; PLAN, ARCHITECTURE, FUNCTIONAL (+ru), UI_DESIGN, READMEs updated. |
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4c475f2b0e |
Stage 7: run the e2e suite in WebKit too (Safari-engine coverage)
Add a webkit project to the Playwright config so the hermetic mock-mode specs run in both Chromium and WebKit, and install both browsers in CI. WebKit's Debian build runs headless without extra host system libraries (verified locally: smoke + zoom pass in webkit); the workflow comment records the one-time host install-deps fallback if a runner ever lacks a library. Desktop WebKit does not reproduce iOS Safari's text auto-inflation, so the app.css text-size-adjust guard stays outside e2e coverage. |
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5b2e95d3c0 |
Stage 7: ui-test CI — make Playwright e2e strict
System libs are now provisioned once on the runner host (install-deps); the job downloads the browser into the runner cache and runs the smoke strictly (no --with-deps, no sudo, no continue-on-error; timeouts kept as a hang guard). |
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f2f91ae7e6 |
Stage 7: ui-test CI — Playwright browser/e2e best-effort
Tests · UI / test (push) Successful in 29s
The Gitea runner is an act host executor without apt privileges, so 'playwright install --with-deps chromium' (apt-get) hung ~51m then failed. Drop --with-deps, bound the browser-install + e2e steps with timeouts and mark them continue-on-error so a runner lacking GUI libs can't block the gate. The strict gate stays check/unit/build/size; the e2e smoke remains a hard local pre-push check. |
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0284c9b83a |
Stage 7 (wip): tests + UI CI
- Vitest units: board replay, placement machine, premium parity, i18n key parity, FlatBuffers codec round-trips (19 tests) - Playwright smoke (mock transport): guest -> lobby -> board -> place tile -> preview - ui-test.yaml workflow: check/unit/build + bundle-size budget (67.5KB gzip < 100KB) + chromium e2e - gateway transcode tests for games.list (seat display_name), pass, hint - backend integration test for game.ListForAccount |
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408da3f201 |
Stage 6: gateway edge (Connect/FlatBuffers over h2c, platform/email/guest auth, sessions, rate-limit, admin passthrough, live push bridge)
New public ingress and the first network edge. Framework + a vertical slice of operations end-to-end; remaining ops reuse the same transcode pattern in Stage 7. Contracts (new module scrabble/pkg): - push.proto (backend->gateway gRPC server-stream) + scrabble.fbs (FlatBuffers edge payloads), committed generated Go; buf/flatc Makefiles (dev-time codegen). Backend: - REST handlers on the /api/v1 groups: internal session endpoints (telegram/guest/email login -> mint, resolve, revoke) and the user slice (profile, submit_play, state, lobby enqueue/poll, chat). - internal/notify in-process Publisher hub + internal/pushgrpc gRPC server (BACKEND_GRPC_ADDR) streaming your_turn/opponent_moved/chat/nudge/match_found; emission in game.commit, social, matchmaker. - migration 00005 accounts.is_guest; guests are durable rows excluded from stats; ProvisionGuest; email-as-login (RequestLoginCode/LoginWithCode). Gateway (new module scrabble/gateway): - Connect Gateway service over h2c (Execute + Subscribe), FlatBuffers<->JSON transcode registry, Telegram initData HMAC validator (seam), session cache, token-bucket rate limiter (3 classes), push fan-out hub, backend REST + push gRPC client, admin Basic-Auth reverse proxy. go.work: use ./pkg, ./gateway + replace scrabble/pkg. CI: gateway/**, pkg/** path filters; unit build/vet/test span all three modules. Docs (PLAN, ARCHITECTURE, FUNCTIONAL+ru, TESTING, READMEs) updated; gateway/pkg unit tests + guest/email-login integration tests. |
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6d0dd4fb14 |
Stage 2: engine package over scrabble-solver (registry, bag, Game, replay)
backend/internal/engine wraps the sibling scrabble-solver library in-process: - Registry: versioned DAWG load via dafsa.Load, keyed by (variant, dict_version), latest-per-variant; English / Russian / Эрудит handled uniformly. - Bag: own deterministic, seeded tile bag with Draw + Return (for exchanges), since the solver's self-play bag cannot return tiles. - Game: pure rules engine — deal, play/pass/exchange/resign, refill, per-move scoring, turn order, and end-condition detection (empty bag + empty rack, six scoreless turns, resignation) with end-game rack adjustment. - decode/ReplayBoard: dictionary-independent MoveRecords and board replay via scrabble.Apply (no internal/encoding), realising ARCHITECTURE §9.1. Wiring: go.work gains "replace scrabble-solver => ../scrabble-solver"; backend requires scrabble-solver (placeholder) and github.com/iliadenisov/dafsa directly. Both Go CI workflows clone the public solver sibling (master HEAD, no token) and set BACKEND_DICT_DIR. Docs: ARCHITECTURE §5/§14, TESTING engine layer, backend README, and PLAN refinements + deferred TODOs (publish/version solver; split engine vs dictionary generator). |
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eeaad62b10 |
Stage 1: backend foundation (Postgres, sessions, accounts, OTel)
- internal/postgres: pgx-over-database/sql pool (otelsql), embedded goose
migrations into schema 'backend', committed go-jet code + cmd/jetgen tool.
- internal/account: durable accounts + unified telegram/email identities
(UUIDv7 keys), find-or-create provisioning with unique-conflict handling.
- internal/session: opaque 256-bit tokens stored as a SHA-256 hash, revoke-only
(no TTL); write-through cache gating /readyz; store + service.
- internal/telemetry: OTel tracer/meter providers (none/stdout) + request-timing
middleware; internal/config gains Postgres + OTel env loading.
- internal/server: /api/v1 {public,user,internal,admin} skeleton + X-User-ID
middleware; /readyz checks DB ping + cache; main wires
telemetry -> db+migrate -> warm cache -> server.
- Tests: unit + integration (build tag 'integration', testcontainers
postgres:17) for migrations, accounts, sessions, readyz; new integration.yaml.
- Docs: ARCHITECTURE, TESTING, PLAN refinements, root + backend READMEs.
Session/account REST handlers deferred to Stage 6 (gateway); OTLP + dashboards
to Stage 11.
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effe6675bc |
Stage 0: scaffold monorepo, backend skeleton, docs, CI
Tests · Go / test (push) Successful in 32s
- go.work (Go 1.26.3) with backend module; deps added incrementally (gin+zap only) - backend: /healthz + /readyz, env config, graceful shutdown - docs: ARCHITECTURE, FUNCTIONAL (+ru mirror), TESTING - PLAN.md (stage tracker + per-stage open details) and CLAUDE.md (per-stage workflow) - .gitea go-unit CI (gofmt/vet/build/test) |