## Context
A MAM (MyAnonamouse) freeleech farming workflow was deployed on 2026-04-14
via kubectl apply (outside Terraform). Five days later the account was
still stuck in Mouse class: 715 MiB downloaded, 0 uploaded, ratio 0.
Tracker responses on 7 of 9 active torrents returned
`status=4 | msg="User currently mouse rank, you need to get your ratio up!"`
— MAM was actively refusing to serve peer lists because the account was
in Mouse class, and refusing to serve peer lists made the ratio impossible
to recover. Meanwhile the grabber kept digging: 501 torrents sat in
qBittorrent, 0 completed, 0 bytes uploaded.
Root causes (ranked):
1. Death spiral — Mouse class blocks announces, nothing uploads.
2. BP-spender 30 000 BP threshold blocked the only exit even though the
account already had 24 500 BP.
3. Grabber selection (`score = 1.0 / (seeders+1)`) preferred low-demand
torrents filtered to <100 MiB — ratio-hostile by design.
4. Grabber/cleanup deadlock: cleanup only fired on seed_time > 3d, so
torrents that never started never qualified. Combined with the 500-
torrent cap this stalled the grabber indefinitely.
5. qBittorrent queueing amplified (4) — 495/501 stuck in queuedDL.
6. Ratio-monitor labelled queued torrents `unknown` (empty tracker
field), hiding the problem on the MAM Grafana panel.
7. qBittorrent memory limit (256 Mi LimitRange default) too low.
8. All of the above was Terraform drift with no reviewability.
## This change
Introduces `stacks/servarr/mam-farming/` — a new TF module that adopts
the three kubectl-applied resources and replaces their scripts with
demand-first, H&R-aware logic. Also bumps qBittorrent resources, fixes
ratio-monitor labelling, and adds five Prometheus alerts plus a Grafana
panel row.
### Architecture
MAM API ───┬─── jsonLoad.php (profile: ratio, class, BP)
├─── loadSearchJSONbasic.php (freeleech search)
├─── bonusBuy.php (50 GiB min tier for API)
└─── download.php (torrent file)
│
Pushgateway <──┬────────────┤
│ mam_ratio ┌────────────────────┐
│ mam_class_code │ freeleech-grabber │ */30
│ mam_bp_balance ◄───│ (ratio-guarded) │
│ mam_farming_* └──────────┬─────────┘
│ mam_janitor_* │ adds to
│ ▼
│ Grafana panels qBittorrent (mam-farming)
│ + 5 alerts ▲
│ │ deletes by rule
│ ┌──────────┴─────────┐
│ ◄───│ farming-janitor │ */15
│ │ (H&R-aware) │
│ └──────────┬─────────┘
│ │ buys credit
│ ┌──────────┴─────────┐
└───────────────────────│ bp-spender │ 0 */6
│ (tier-aware) │
└────────────────────┘
### Key decisions
- **Ratio guard on grabber** — refuse to grab if ratio < 1.2 OR class ==
Mouse. Prevents the death spiral from deepening. Emits
`mam_grabber_skipped_reason{reason=...}` and exits clean.
- **Demand-first selection** — new score formula
`leechers*3 - seeders*0.5 + 200 if freeleech_wedge else 0`; size band
50 MiB – 1 GiB; leecher floor 1; seeder ceiling 50. Picks titles that
will actually upload.
- **Janitor decoupled from grabber** — runs every 15 min regardless of
the ratio-guard state. Without this, stuck torrents accumulate
fastest exactly when the grabber is skipping (Mouse class). H&R-aware:
never deletes `progress==1.0 AND seeding_time < 72h`. Six delete
reasons observable via `mam_janitor_deleted_per_run{reason=...}`.
- **BP-spender tier-aware** — MAM imposes a hard 50 GiB minimum on API
buyers ("Automated spenders are limited to buying at least 50 GB...
due to log spam"). Valid API tiers: 50/100/200/500 GiB at 500 BP/GiB.
The spender picks the smallest tier that satisfies the ratio deficit
AND fits the budget, preserving a 500 BP reserve. If even the 50 GiB
tier is too expensive, it skips and retries on the next 6-hour cron.
- **Authoritative metrics use MAM profile fields** —
`downloaded_bytes` / `uploaded_bytes` (integers) rather than the
pretty-printed `downloaded` / `uploaded` strings like "715.55 MiB"
that MAM also returns.
- **Ratio-monitor category-first labelling** — `tracker` is empty for
queued torrents that never announced. Now maps `category==mam-farming`
to label `mam` first, only falls back to tracker-URL parsing when
category is absent. Stops hundreds of MAM torrents collecting under
`unknown`.
- **qBittorrent resources bumped** to `requests=512Mi / limits=1Gi` so
hundreds of active torrents don't OOM.
### Emergency recovery performed this session
1. Adopted 5 in-cluster resources via root-module `import {}` blocks
(Terraform 1.5+ rejects imports inside child modules).
2. Ran the janitor in DRY_RUN=1 to verify rules against live state —
466 `never_started` candidates, 0 false positives in any other
reason bucket. Flipped to enforce mode.
3. Janitor deleted 466 stuck torrents (matches plan's ~495 target; 35
preserved as active/in-progress).
4. Truncated `/data/grabbed_ids.txt` so newly-popular titles become
eligible again.
The ratio is still 0 because the API cannot buy below 50 GiB and the
account sits at 24 551 BP (needs 25 000). Manual 1 GiB purchase via the
MAM web UI — 500 BP — would immediately lift the account to ratio ≈ 1.4
and unblock announces. Future automation cannot do this for us due to
MAMs anti-spam rule.
### What is NOT in this change
- qBittorrent prefs reconciliation (max_active_downloads=20,
max_active_uploads=150, max_active_torrents=150). The plan wanted
this; deferred to a follow-up because the janitor + ratio recovery
handles the 500-torrent backlog first. A small reconciler CronJob
posting to /api/v2/app/setPreferences is the intended follow-up.
- VIP purchase (~100 k BP) — deferred until BP accumulates.
- Cross-seed / autobrr — separate initiative.
## Alerts added
- P1 MAMMouseClass — `mam_class_code == 0` for 1h
- P1 MAMCookieExpired — `mam_farming_cookie_expired > 0`
- P2 MAMRatioBelowOne — `mam_ratio < 1.0` for 24h (replaces old
QBittorrentMAMRatioLow, now driven by authoritative profile metric)
- P2 MAMFarmingStuck — no grabs in 4h while ratio is healthy
- P2 MAMJanitorStuckBacklog — `skipped_active > 400` for 6h
## Test plan
### Automated
$ cd infra/stacks/servarr && ../../scripts/tg plan 2>&1 | grep Plan
Plan: 5 to import, 2 to add, 6 to change, 0 to destroy.
$ ../../scripts/tg apply --non-interactive
Apply complete! Resources: 5 imported, 2 added, 6 changed, 0 destroyed.
# Re-plan after import block removal (idempotent)
$ ../../scripts/tg plan 2>&1 | grep Plan
Plan: 0 to add, 1 to change, 0 to destroy.
# The 1 change is a pre-existing MetalLB annotation drift on the
# qbittorrent-torrenting Service — unrelated to this change.
$ cd ../monitoring && ../../scripts/tg apply --non-interactive
Apply complete! Resources: 0 added, 2 changed, 0 destroyed.
# Python + JSON syntax
$ python3 -c 'import ast; [ast.parse(open(p).read()) for p in [
"infra/stacks/servarr/mam-farming/files/freeleech-grabber.py",
"infra/stacks/servarr/mam-farming/files/bp-spender.py",
"infra/stacks/servarr/mam-farming/files/mam-farming-janitor.py"]]'
$ python3 -c 'import json; json.load(open(
"infra/stacks/monitoring/modules/monitoring/dashboards/qbittorrent.json"))'
### Manual Verification
1. Grabber ratio-guard path:
$ kubectl -n servarr create job --from=cronjob/mam-freeleech-grabber g1
$ kubectl -n servarr logs job/g1
Skip grab: ratio=0.0 class=Mouse (floor=1.2) reason=mouse_class
2. BP-spender tier path:
$ kubectl -n servarr create job --from=cronjob/mam-bp-spender s1
$ kubectl -n servarr logs job/s1
Profile: ratio=0.0 class=Mouse DL=0.70 GiB UL=0.00 GiB BP=24551
| deficit=1.40 GiB needed=3 affordable=48 buy=0
Done: BP=24551, spent=0 GiB (needed=3, affordable=48)
Correctly skips because affordable (48) < smallest API tier (50).
3. Janitor in enforce mode:
$ kubectl -n servarr create job --from=cronjob/mam-farming-janitor j1
$ kubectl -n servarr logs job/j1 | tail -3
Done: deleted=466 preserved_hnr=0 skipped_active=35 dry_run=False
per reason: {'never_started': 466, ...}
Second run immediately after: `deleted=0 skipped_active=35` —
steady state with only active/seeding torrents left.
4. Alerts loaded:
$ kubectl -n monitoring get cm prometheus-server \
-o jsonpath='{.data.alerting_rules\.yml}' \
| grep -E "alert: MAM|alert: QBittorrent"
- alert: MAMMouseClass
- alert: MAMCookieExpired
- alert: MAMRatioBelowOne
- alert: MAMFarmingStuck
- alert: MAMJanitorStuckBacklog
- alert: QBittorrentDisconnected
- alert: QBittorrentMAMUnsatisfied
5. Dashboard: browse to Grafana "qBittorrent - Seeding & Ratio" → new
"MAM Profile (from jsonLoad.php)" row at the bottom shows class, BP
balance, profile ratio, transfer, BP-vs-reserve timeseries, janitor
deletion stacked chart, janitor state stat, grabber state stat.
## Reproduce locally
1. `cd infra/stacks/servarr && ../../scripts/tg plan` — expect
0 add / 1 change (unrelated MetalLB annotation drift).
2. `kubectl -n servarr get cronjobs` — expect three:
mam-freeleech-grabber, mam-bp-spender, mam-farming-janitor.
3. Trigger each via `kubectl create job --from=cronjob/<name> <job>`
and read logs; outputs match the manual-verification snippets above.
Closes: code-qfs
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
## Context
Wave 3A (commit c9d221d5) added the `# KYVERNO_LIFECYCLE_V1` marker to the
27 pre-existing `ignore_changes = [...dns_config]` sites so they could be
grepped and audited. It did NOT address pod-owning resources that were
simply missing the suppression entirely. Post-Wave-3A sampling (2026-04-18)
found that navidrome, f1-stream, frigate, servarr, monitoring, crowdsec,
and many other stacks showed perpetual `dns_config` drift every plan
because their `kubernetes_deployment` / `kubernetes_stateful_set` /
`kubernetes_cron_job_v1` resources had no `lifecycle {}` block at all.
Root cause (same as Wave 3A): Kyverno's admission webhook stamps
`dns_config { option { name = "ndots"; value = "2" } }` on every pod's
`spec.template.spec.dns_config` to prevent NxDomain search-domain flooding
(see `k8s-ndots-search-domain-nxdomain-flood` skill). Without `ignore_changes`
on every Terraform-managed pod-owner, Terraform repeatedly tries to strip
the injected field.
## This change
Extends the Wave 3A convention by sweeping EVERY `kubernetes_deployment`,
`kubernetes_stateful_set`, `kubernetes_daemon_set`, `kubernetes_cron_job_v1`,
`kubernetes_job_v1` (+ their `_v1` variants) in the repo and ensuring each
carries the right `ignore_changes` path:
- **kubernetes_deployment / stateful_set / daemon_set / job_v1**:
`spec[0].template[0].spec[0].dns_config`
- **kubernetes_cron_job_v1**:
`spec[0].job_template[0].spec[0].template[0].spec[0].dns_config`
(extra `job_template[0]` nesting — the CronJob's PodTemplateSpec is
one level deeper)
Each injection / extension is tagged `# KYVERNO_LIFECYCLE_V1: Kyverno
admission webhook mutates dns_config with ndots=2` inline so the
suppression is discoverable via `rg 'KYVERNO_LIFECYCLE_V1' stacks/`.
Two insertion paths are handled by a Python pass (`/tmp/add_dns_config_ignore.py`):
1. **No existing `lifecycle {}`**: inject a brand-new block just before the
resource's closing `}`. 108 new blocks on 93 files.
2. **Existing `lifecycle {}` (usually for `DRIFT_WORKAROUND: CI owns image tag`
from Wave 4, commit a62b43d1)**: extend its `ignore_changes` list with the
dns_config path. Handles both inline (`= [x]`) and multiline
(`= [\n x,\n]`) forms; ensures the last pre-existing list item carries
a trailing comma so the extended list is valid HCL. 34 extensions.
The script skips anything already mentioning `dns_config` inside an
`ignore_changes`, so re-running is a no-op.
## Scale
- 142 total lifecycle injections/extensions
- 93 `.tf` files touched
- 108 brand-new `lifecycle {}` blocks + 34 extensions of existing ones
- Every Tier 0 and Tier 1 stack with a pod-owning resource is covered
- Together with Wave 3A's 27 pre-existing markers → **169 greppable
`KYVERNO_LIFECYCLE_V1` dns_config sites across the repo**
## What is NOT in this change
- `stacks/trading-bot/main.tf` — entirely commented-out block (`/* … */`).
Python script touched the file, reverted manually.
- `_template/main.tf.example` skeleton — kept minimal on purpose; any
future stack created from it should either inherit the Wave 3A one-line
form or add its own on first `kubernetes_deployment`.
- `terraform fmt` fixes to pre-existing alignment issues in meshcentral,
nvidia/modules/nvidia, vault — unrelated to this commit. Left for a
separate fmt-only pass.
- Non-pod resources (`kubernetes_service`, `kubernetes_secret`,
`kubernetes_manifest`, etc.) — they don't own pods so they don't get
Kyverno dns_config mutation.
## Verification
Random sample post-commit:
```
$ cd stacks/navidrome && ../../scripts/tg plan → No changes.
$ cd stacks/f1-stream && ../../scripts/tg plan → No changes.
$ cd stacks/frigate && ../../scripts/tg plan → No changes.
$ rg -c 'KYVERNO_LIFECYCLE_V1' stacks/ --include='*.tf' --include='*.tf.example' \
| awk -F: '{s+=$2} END {print s}'
169
```
## Reproduce locally
1. `git pull`
2. `rg 'KYVERNO_LIFECYCLE_V1' stacks/ | wc -l` → 169+
3. `cd stacks/navidrome && ../../scripts/tg plan` → expect 0 drift on
the deployment's dns_config field.
Refs: code-seq (Wave 3B dns_config class closed; kubernetes_manifest
annotation class handled separately in 8d94688d for tls_secret)
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
## Context
Deploying new services required manually adding hostnames to
cloudflare_proxied_names/cloudflare_non_proxied_names in config.tfvars —
a separate file from the service stack. This was frequently forgotten,
leaving services unreachable externally.
## This change:
- Add `dns_type` parameter to `ingress_factory` and `reverse_proxy/factory`
modules. Setting `dns_type = "proxied"` or `"non-proxied"` auto-creates
the Cloudflare DNS record (CNAME to tunnel or A/AAAA to public IP).
- Simplify cloudflared tunnel from 100 per-hostname rules to wildcard
`*.viktorbarzin.me → Traefik`. Traefik still handles host-based routing.
- Add global Cloudflare provider via terragrunt.hcl (separate
cloudflare_provider.tf with Vault-sourced API key).
- Migrate 118 hostnames from centralized config.tfvars to per-service
dns_type. 17 hostnames remain centrally managed (Helm ingresses,
special cases).
- Update docs, AGENTS.md, CLAUDE.md, dns.md runbook.
```
BEFORE AFTER
config.tfvars (manual list) stacks/<svc>/main.tf
| module "ingress" {
v dns_type = "proxied"
stacks/cloudflared/ }
for_each = list |
cloudflare_record auto-creates
tunnel per-hostname cloudflare_record + annotation
```
## What is NOT in this change:
- Uptime Kuma monitor migration (still reads from config.tfvars)
- 17 remaining centrally-managed hostnames (Helm, special cases)
- Removal of allow_overwrite (keep until migration confirmed stable)
Co-Authored-By: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
CPU limits cause CFS throttling even when nodes have idle capacity.
Move to a request-only CPU model: keep CPU requests for scheduling
fairness but remove all CPU limits. Memory limits stay (incompressible).
Changes across 108 files:
- Kyverno LimitRange policy: remove cpu from default/max in all 6 tiers
- Kyverno ResourceQuota policy: remove limits.cpu from all 5 tiers
- Custom ResourceQuotas: remove limits.cpu from 8 namespace quotas
- Custom LimitRanges: remove cpu from default/max (nextcloud, onlyoffice)
- RBAC module: remove cpu_limits variable and quota reference
- Freedify factory: remove cpu_limit variable and limits reference
- 86 deployment files: remove cpu from all limits blocks
- 6 Helm values files: remove cpu under limits sections
- qBittorrent: use service port 80 (not container port 8080)
- Immich: add version=2 for new API endpoints (/api/server/*)
- Nextcloud: use external URL (internal rejects untrusted Host header)
- HA London: remove widget (token expired, needs manual regeneration)
- Headscale: remove widget (requires nodeId param, not overview)
Add Kubernetes ingress annotations for Homepage auto-discovery across
~88 services organized into 11 groups. Enable serviceAccount for RBAC,
configure group layouts, and add Grafana/Frigate/Speedtest widgets.
Final batch: servarr (aiostreams, listenarr, readarr, soulseek,
prowlarr, qbittorrent, lidarr) and actualbudget factory.
All use ../../../modules/kubernetes/nfs_volume (3 levels deep).
Remove the module "xxx" { source = "./module" } indirection layer
from all 66 service stacks. Resources are now defined directly in
each stack's main.tf instead of through a wrapper module.
- Merge module/main.tf contents into stack main.tf
- Apply variable replacements (var.tier -> local.tiers.X, renamed vars)
- Fix shared module paths (one fewer ../ at each level)
- Move extra files/dirs (factory/, chart_values, subdirs) to stack root
- Update state files to strip module.<name>. prefix
- Update CLAUDE.md to reflect flat structure
Verified: terragrunt plan shows 0 add, 0 destroy across all stacks.
