b6f8de1dcc0d9f65739cfdfdcbb4f59aa630094c
5 Commits
| Author | SHA1 | Message | Date | |
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 steve
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b6f8de1dcc |
lint: drive baseline to zero, drop only-new-issues gate
Cleanup pass over the repo so CI can enforce lint going forward
without the only-new-issues escape hatch:
* gofumpt -w across the tree (31 hits, all formatting)
* misspell --fix (25 hits, US-locale spelling) — but reverted on
api.JobCancelled = "cancelled" since that literal is the wire +
DB CHECK constraint value, plus matched the case in store/fleet.go
back to "cancelled" and added //nolint:misspell on both for the
next time someone reaches for the auto-fix
* Wrap every `defer rows.Close()` / `defer stmt.Close()` /
`defer res.Body.Close()` in `defer func() { _ = .Close() }()`
to satisfy errcheck without losing the close itself
* websocket.Dial callers (1 prod, 4 tests) now capture + close the
upgrade response Body — coder/websocket can return res with a nil
Body on success, so the test deferred-closes guard against that
* Annotate the two genuine-by-design nilerr cases with //nolint
comments explaining why nil-on-error is the contract (cookie
missing = no session; ctx cancelled mid-backoff = clean shutdown)
* Add brief godoc on the 10 exported const groups + types that
revive flagged (api.HostOS/HostArch/JobKind/JobStatus/LogStream/
ErrorCode, restic.EventKind, store.Role, web.FS)
* Drop the unused (*Server).userByID method
* Inline the unparam baseView(active) — every UI page is under
the dashboard primary nav today
Result: `golangci-lint run ./...` reports 0 issues. CI lint job
no longer needs only-new-issues: true; X-06 follow-up entry in
tasks.md removed.
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steve
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ec0bf0f6c3 |
P2R-01: REST + WS rewire against the slim shape
Schedules CRUD now takes {cron, enabled, source_group_ids[]} with cron
parsed via robfig/cron/v3 and group membership scoped to the host.
New source-groups CRUD lives at /api/hosts/{id}/source-groups; delete
refuses with 409 if any schedule still references the group, returning
the schedule list so the UI can prompt 'remove from these schedules
first.' Repo-maintenance GET/PUT manages forget/prune/check cadences
on host_repo_maintenance — no version bump, the server-side ticker
(P2R-06) drives execution.
Per-source-group Run-now (POST /hosts/{id}/source-groups/{gid}/run)
resolves the group's includes/excludes/retention/tag and dispatches a
backup command.run with the new structured CommandRunPayload fields
(Includes/Excludes/Tag). Old per-host /hosts/{id}/run-backup and
/hosts/{id}/init-repo return 410 Gone with a redirect message.
schedule_push.go is rebuilt: buildScheduleSetPayload assembles the
slim wire shape, pushScheduleSetOnConn ships it during the on-hello
window, pushScheduleSetAsync fires after every CRUD mutation, and
dispatchScheduledJob handles agent schedule.fire by iterating the
schedule's source groups and dispatching one backup per group with
actor_kind=schedule and scheduled_id pointing at the schedule.
Auto-init at first WS connect: when the host has repo creds bound and
no init job in its history, server dispatches restic init. Restic's
'config file already exists' soft-success means re-runs against an
existing repo no-op; we don't auto-retry on failure (operator triggers
re-init manually via the danger zone in P2R-09).
api.Schedule drops Kind/Paths/Excludes/Tags/RetentionPolicy/Manual etc.
in favour of {id, cron, enabled, source_groups: [...]}. The agent
scheduler stops checking sch.Manual; cmd/agent's backup dispatch reads
Includes/Excludes/Tag instead of Args.
Tests cover the new HTTP surface end-to-end: source-groups CRUD with
in-use refusal, schedule validation (bad cron / missing groups /
foreign group), repo-maintenance auto-seed and validation, the 410
route, and buildScheduleSetPayload's wire-shape correctness. Full
suite passes; smoke env exercises auto-init dispatch on hello,
async push after schedule create, and per-source-group Run-now
landing the right paths/excludes/tag at the agent.
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steve
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608962441b |
P2-02 (agent side) + P2-03: agent scheduler + schedule.fire dispatch
Closes the schedule reconciliation loop end-to-end.
* New `internal/agent/scheduler` package wraps robfig/cron/v3 with
the lifecycle the agent needs:
- Apply(ScheduleSetPayload, Sender) stops the prior cron (waiting
for in-flight entries to return), rebuilds from scratch, starts,
and emits schedule.ack with the version we just applied.
- Disabled entries skipped silently; bad cron exprs (which
shouldn't reach us — the server validates — but defensive)
log a warn and skip.
- On each cron tick the entry sends a new schedule.fire envelope
to the server with {schedule_id, scheduled_at}. The scheduler
itself never builds CommandRunPayloads — server is the source
of truth for jobs.
- tx is swapped on every Apply, so reconnect is handled
naturally: cron entries that fire against a dropped tx log
"no active connection" and skip the tick.
- Stop() is idempotent and waits for the cron's in-flight
workers via cron.Stop().Done().
* New wire message api.MsgScheduleFire + api.ScheduleFirePayload
for the agent → server "I just fired locally" RPC.
* Server-side dispatch (schedule_push.go: dispatchScheduledJob):
looks up the schedule by id, validates ownership + that it's
enabled, builds args from kind (paths for backup; other kinds
are still arg-less in Phase 2 and grow as those job kinds land
in P2-05..08), persists a jobs row with actor_kind=schedule +
scheduled_id, and writes command.run back on the same conn so
the agent runs through its existing dispatch path.
* store.CreateJob now writes scheduled_id. This column was in the
schema since 0001 but never populated — the original P1 path
only had operator-driven jobs, so actor_kind was always 'user'
and scheduled_id was always nil.
* cmd/agent/main.go integration: dispatcher gains a
*scheduler.Scheduler; the MsgScheduleSet case now hands the
payload to scheduler.Apply (in a goroutine so the WS read loop
keeps draining other messages).
* WS dispatcher gains OnScheduleFire alongside OnScheduleAck.
* Tests:
- scheduler unit tests (4): ack-on-apply, cron tick fires
schedule.fire envelope, disabled entries don't fire, replace-
prior-state stops the old cron.
- Server-side end-to-end: schedule.fire → command.run with the
right job_id / kind / args, plus jobs row with actor_kind=
"schedule" and scheduled_id linking back to the schedule.
Persistence of next-fire times across agent restarts is
deliberately deferred. A missed fire window during downtime
simply fires once on reconnect — that's the desirable behaviour
(the operator wants the missed backup to run, not be silently
skipped because we lost track of when it was due).
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
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steve
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e6729a5a3d |
P1-26: live job log viewer + WS browser fan-out hub
Closes the P1-21 remainder.
internal/server/ws/jobhub.go — new JobHub. Per-job_id set of
subscribers; each gets a 64-deep buffered channel with a writer
goroutine. Broadcast is non-blocking: if a subscriber is slow,
its channel fills and messages are dropped for that subscriber
only — the agent's read loop is never blocked by a stuck browser.
The agent dispatchAgentMessage path mirrors job.started /
job.progress / log.stream / job.finished envelopes onto the hub
in addition to its existing persistence work. The wire shape is
the same end-to-end, so client-side JS switches on env.type the
same way Go code does.
GET /api/jobs/{id}/stream is the browser endpoint. Auth via
session cookie (HTTP layer); upgrade; subscribe; pump until
context closes.
GET /jobs/{id} renders the live log page. Three states (queued/
running/succeeded/failed) drive the header pill, the progress
bar block, the failure summary panel, and the action button
(Cancel job while running, Back to host afterwards). Already-
persisted log lines are server-rendered on initial load; new
lines arrive over the WS and append to #log-stream. Auto-scrolls
unless the user scrolls up (a "⇢ Follow" pill re-attaches).
On job.finished the page reloads after 600ms to pick up the
final-state header rendered server-side.
POST /hosts/{id}/run-backup now sets HX-Redirect → /jobs/{job_id}
on success so HTMX lands the operator straight on the live log.
For non-HTMX callers (curl / plain form post) it 303s to the
same target.
store.ListJobLogs returns persisted log lines for initial render
on page load.
Browser-verified end-to-end: enrol → run a real backup against a
sibling restic/rest-server → live progress + 11 log lines stream
in → succeeded pill + final stats land after page reload.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
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steve
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a7c6a6e09c |
phase 1: run-now backup — restic wrapper, job lifecycle, end-to-end
Lands the operator → server → agent → restic → server roundtrip for
on-demand backups. The flow:
POST /api/hosts/{id}/jobs {kind:"backup",args:["/path"]}
→ server creates a queued Job row
→ server emits command.run over WS to the host's agent
→ agent dispatcher spawns runner.RunBackup in a goroutine
→ runner spawns `restic backup --json`, parses each line
→ forwards: job.started, log.stream (every line), job.progress
(throttled to 1/sec), job.finished (with summary stats blob)
→ server WS handler persists those into jobs / job_logs
P1-16 internal/restic: thin Locate + Env wrapper that runs `restic
backup --json`, scans stdout/stderr, parses BackupStatus +
BackupSummary, calls back into a LineHandler so the agent can fan
out to log.stream + job.progress. Treats exit code 3 as
"succeeded with issues" (matches restic's contract).
P1-18 store: jobs accessors (CreateJob, MarkJobStarted,
MarkJobFinished, AppendJobLog, GetJob).
P1-19 server: POST /api/hosts/{id}/jobs creates the Job row,
validates kind, dispatches via Hub.Send, audit-logs the action.
P1-20 agent runner: wraps restic.RunBackup with throttled progress
emission. Sender abstraction was added to wsclient.Handler so
background goroutines can keep replying after dispatch returns.
P1-21 server WS: dispatchAgentMessage now persists job.started,
job.finished, log.stream into the database. Browser fan-out for
live tailing lands with the UI work.
Agent gets repo_url + repo_password from agent.yaml in plaintext
for now (mode 0600, owned by service user); spec.md §7.3's keyring
storage moves there in P2. config.update over WS overrides the
in-memory copy (does not persist).
Build clean; all tests pass. End-to-end with a real restic still
needs a host that has restic installed — wire shape verified by
the existing hello/heartbeat round-trip test.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
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