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developer dc946a1faf Merge pull request 'release v1.2.2: edge HTTP/3 stall fix + db-size dashboard threshold' (#121) from development into master 2026-06-22 19:50:58 +00:00
developer ba57687430 Merge pull request 'fix(grafana): real byte thresholds for the Database size stat' (#120) from feature/grafana-db-size-thresholds into development
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2026-06-22 19:41:42 +00:00
developer 6cb88b28c4 Merge pull request 'fix(edge): suppress dead HTTP/3 advert with Alt-Svc: clear' (#119) from feature/edge-suppress-http3-altsvc into development
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2026-06-22 19:41:16 +00:00
Ilia Denisov 46d569720c fix(grafana): give "Database size" stat real byte thresholds
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The "Database size" stat had no thresholds, so Grafana applied its stat
default (green base, red at >=80). The query is pg_database_size_bytes, so a
healthy ~9 MiB database (9.4M >> 80) rendered permanently RED on the
Scrabble - Resources dashboard (test + prod), reading as a false alert; the
neighbouring percentunit cache-hit stat stayed green only because its 0..1
values fall under 80.

Add absolute byte thresholds sized to the 40 GiB prod disk (4.6 GiB used,
observability bounded -- Tempo <=1 GiB, Prometheus 7d -- so the DB is the
only unbounded grower): green up to 8 GiB, yellow at 8 GiB (~20% of disk),
red at 16 GiB (~40%), an early warning with ample runway before the disk
tightens, not a panic line. Cosmetic panel coloring only; there are no
Grafana alert rules provisioned.
2026-06-22 21:35:48 +02:00
Ilia Denisov 9253b1bdca fix(edge): suppress dead HTTP/3 advert with Alt-Svc: clear
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Caddy enables HTTP/3 by default on any TLS listener and emits
Alt-Svc: h3=":443"; ma=2592000, but UDP/443 is never reachable: the prod
compose maps only "443:443" (TCP) and ufw opens 443/tcp (test contour: the
host caddy publishes only :443/tcp). A client that cached the 30-day advert
tries QUIC first on later opens, gets no response, and waits for the QUIC
attempt to time out before falling back to h2 -- which surfaced as the
Telegram Mini App intermittently hanging on load (a barely-noticeable pause
up to a blank window). The h2/TCP serving path itself is healthy (~10ms TTFB).

Emit Alt-Svc: clear site-wide at the contour caddy so clients actively drop
any cached alternative and stay on h2/h1. This caddy terminates TLS in prod
(the fix target); in the test contour it serves plain :80 and the host caddy
re-stamps its own Alt-Svc, so the live test fix lives in the host caddy. Add
docs/EDGE_HTTP3.md (symptom, diagnosis method, verify, and option B -- serving
h3 for real -- if it recurs) and link it from ARCHITECTURE.md.
2026-06-22 21:20:31 +02:00
4 changed files with 142 additions and 2 deletions
+12
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@@ -21,6 +21,18 @@
} }
{$CADDY_SITE_ADDRESS::80} { {$CADDY_SITE_ADDRESS::80} {
# HTTP/3 is advertised by default whenever this caddy terminates TLS (prod:
# CADDY_SITE_ADDRESS is the domain). But UDP/443 is never reachable — the prod
# compose maps only "443:443" (TCP) and ufw opens 443/tcp — so a client that cached
# the `Alt-Svc: h3` advert (sticky for ma=2592000s) stalls on the dead QUIC path
# before falling back to h2, which surfaced as the Telegram Mini App intermittently
# hanging on load. `Alt-Svc: clear` actively drops any cached alternative and pins
# clients to h2/h1; it is applied site-wide so every route is covered. In the test
# contour this caddy serves plain :80 (no h3 to advertise) and the host caddy
# re-stamps its own Alt-Svc, so the live test fix lives in the host caddy — here it
# is the prod fix. Background + alternatives (incl. serving h3 for real): docs/EDGE_HTTP3.md.
header Alt-Svc clear
# Operator surfaces under /_gm: a single shared Basic-Auth, then route. # Operator surfaces under /_gm: a single shared Basic-Auth, then route.
@gm path /_gm /_gm/* @gm path /_gm /_gm/*
handle @gm { handle @gm {
+15 -1
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@@ -36,7 +36,21 @@
"type": "stat", "type": "stat",
"title": "Database size", "title": "Database size",
"gridPos": { "h": 5, "w": 6, "x": 18, "y": 0 }, "gridPos": { "h": 5, "w": 6, "x": 18, "y": 0 },
"fieldConfig": { "defaults": { "unit": "bytes" }, "overrides": [] }, "fieldConfig": {
"defaults": {
"unit": "bytes",
"color": { "mode": "thresholds" },
"thresholds": {
"mode": "absolute",
"steps": [
{ "color": "green", "value": null },
{ "color": "yellow", "value": 8589934592 },
{ "color": "red", "value": 17179869184 }
]
}
},
"overrides": []
},
"datasource": { "type": "prometheus", "uid": "prometheus" }, "datasource": { "type": "prometheus", "uid": "prometheus" },
"targets": [{ "refId": "A", "expr": "max(pg_database_size_bytes{datname=\"scrabble\"})" }] "targets": [{ "refId": "A", "expr": "max(pg_database_size_bytes{datname=\"scrabble\"})" }]
}, },
+4 -1
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@@ -1098,7 +1098,10 @@ Two contours, two secret/variable prefixes (`TEST_` / `PROD_`):
the **main host** runs the full stack (`docker-compose.yml` + `docker-compose.prod.yml`), the **main host** runs the full stack (`docker-compose.yml` + `docker-compose.prod.yml`),
the **bot host** runs only the bot (`docker-compose.bot.yml`, no VPN — native Bot API the **bot host** runs only the bot (`docker-compose.bot.yml`, no VPN — native Bot API
egress, telemetry off). There is no host caddy, so the contour caddy terminates TLS — egress, telemetry off). There is no host caddy, so the contour caddy terminates TLS —
`CADDY_SITE_ADDRESS` is the domain and caddy does its own ACME. The gateway **publishes** `CADDY_SITE_ADDRESS` is the domain and caddy does its own ACME. Caddy advertises HTTP/3 by default, but UDP/443 is not exposed (the
compose maps only TCP and ufw opens 443/tcp), so the edge emits `Alt-Svc: clear` to keep
clients on h2/h1 rather than stall on a dead QUIC path — see [`EDGE_HTTP3.md`](EDGE_HTTP3.md).
The gateway **publishes**
the bot-link `:9443`; the remote bot dials it over mTLS (certs from `PROD_BOTLINK_*`, the bot-link `:9443`; the remote bot dials it over mTLS (certs from `PROD_BOTLINK_*`,
ServerName `gateway`, so TLS validation is independent of the public dial address), holds ServerName `gateway`, so TLS validation is independent of the public dial address), holds
no inbound port, and login is unaffected if that host or the link is down. no inbound port, and login is unaffected if that host or the link is down.
+111
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@@ -0,0 +1,111 @@
# Edge HTTP/3 (`Alt-Svc`) policy
## TL;DR
The edge **advertises HTTP/3 but does not actually serve it** (UDP/443 is not exposed),
so we suppress the advert with `Alt-Svc: clear`. Advertising QUIC on `:443/udp` while
that port is unreachable makes clients — notably the Telegram Mini App webview — stall
on a dead QUIC connection before falling back to h2, which shows up as the app "hanging
on load".
## Symptom
Opening the Mini App intermittently hangs on load: from a barely-noticeable pause to
several seconds, sometimes a blank window that never finishes downloading `index.html`.
Intermittent, worse after the first successful visit, reproduced on both the test
contour and prod.
## Root cause
Caddy enables HTTP/3 by default on any TLS listener and emits
`Alt-Svc: h3=":443"; ma=2592000` — telling every client "reach me over QUIC/UDP 443"
and to cache that for 30 days. But UDP/443 is **never reachable end to end**:
- **Test contour**: the host caddy publishes only `:443/tcp` (`docker port caddy` shows
no `udp`); QUIC packets from the internet are dropped.
- **Prod**: `deploy/docker-compose.prod.yml` maps `"443:443"` (Docker = **TCP only**)
and `deploy/ansible/roles/main/tasks/main.yml` opens 443 `proto: tcp`. UDP/443 is
dropped at both the publish and the firewall.
Caddy *does* bind `udp/443` inside the container and h3 works container-to-container
(verified `http=3 code=200`), so the listener is healthy — it is simply not exposed.
A client that cached the advert tries QUIC first on later opens, gets no response, and
waits for the QUIC attempt to time out before falling back to TCP/h2. That wait is the
stall. The very first visit (no cached `Alt-Svc`) uses h2 and is fast.
The h2/TCP serving path itself is healthy: 30 fresh-TLS requests through the full path
(host caddy -> contour caddy -> gateway) measured TTFB ~9.5 ms, total ~9.8 ms, no tail;
`index.html` is ~1 KB.
## Fix in place (option A — suppress the advert)
Emit `Alt-Svc: clear`, which actively drops any cached alternative (better than merely
deleting the header, which leaves the sticky 30-day cache in place):
- **Prod / repo**: `deploy/caddy/Caddyfile` — a site-level `header Alt-Svc clear` (this
caddy terminates TLS in prod).
- **Test contour**: the host caddy terminates TLS, so the fix lives there (homelab
config, outside this repo): `header Alt-Svc clear` on the `scrabble.*` site. The
in-compose caddy serves plain `:80` in test and never advertises h3, so the repo
directive is a harmless no-op there (the host caddy re-stamps the header).
`header Alt-Svc clear` overrides Caddy's auto-advert (verified) and is site-scoped.
### Verify
The runner/prod host shell cannot reach the Docker bridge IPs directly, so probe from a
container on the relevant network, using `--resolve` to hit the TLS-terminating caddy by
its bridge IP (this also bypasses the public-IP NAT hairpin):
```sh
# <edge-ip> = the TLS-terminating caddy's IP on its network (docker inspect ... )
docker run --rm --network edge curlimages/curl:latest -sS -D - -o /dev/null \
--resolve <host>:443:<edge-ip> https://<host>/telegram/ | grep -iE '^HTTP|^alt-svc'
# expect: HTTP/2 200, and NO `alt-svc: h3=...` (the header is absent or `alt-svc: clear`)
```
## If it recurs — alternatives to try
So we do not re-derive the diagnosis from scratch:
1. **Re-confirm the advert is actually suppressed** with the verify command above. A
redeploy or a Caddy upgrade could regress it, or a client may still hold a cached
`h3` entry that has not yet been replaced by a `clear` (it needs one successful h2
response to receive the `clear`).
2. **Option B — serve HTTP/3 for real** instead of suppressing it. Worth it only if we
actually want QUIC (the benefit is marginal for a ~1 KB shell plus hash-immutable
cached assets, and it adds UDP/QUIC attack surface):
- Publish UDP: add `"443:443/udp"` next to the TCP map in
`deploy/docker-compose.prod.yml` (and publish udp/443 on the test host caddy too).
- Open the firewall: add a `443 proto: udp` rule in
`deploy/ansible/roles/main/tasks/main.yml`.
- Drop the `header Alt-Svc clear` so Caddy advertises h3 again.
- Verify with an h3 client from inside the network:
`docker run --rm --network edge ymuski/curl-http3 curl --http3-only ...` should
return `http=3 code=200`.
3. **Look past the edge** if the advert is suppressed and stalls persist. The h2 path is
fast server-side, so a remaining stall is most likely the client network / RTT / the
provider, not our stack. Re-run the timing loop (below) to confirm the server is
still <~10 ms TTFB before chasing the client side.
## How this was diagnosed (method, to repeat)
- The runner/prod host shell cannot reach the Docker bridge subnets, so all probing runs
from a throwaway container on the target network (`docker run --network <net>
curlimages/curl`), using `--resolve <host>:443:<edge-ip>` to bypass the public-IP NAT
hairpin and exercise the real TLS path.
- Compare a fresh-connection timing loop (worst case, full TLS each time) against a
keepalive batch to separate handshake cost from serving cost:
```sh
docker run --rm --network edge curlimages/curl:latest sh -c '
for i in $(seq 1 30); do
curl -sS -o /dev/null --resolve <host>:443:<edge-ip> \
-w "http=%{http_version} code=%{http_code} tls=%{time_appconnect} ttfb=%{time_starttransfer} total=%{time_total}\n" \
https://<host>/telegram/
done'
```
- `docker port <caddy>` shows whether `udp/443` is actually published; the response
`Alt-Svc` header shows what the edge advertises. The two disagreeing is the bug.