steve
5667cdf13a
Go-side data model rebuilt against migration 0008. The fat-Schedule
shape (paths/excludes/tags/retention/manual/kind/options/hooks) is
gone; that surface lives on source_groups now.
* store/types.go
- Schedule slimmed to {id, host_id, cron, enabled, source_group_ids,
timestamps}. SourceGroupIDs populated by Get/List, accepted on
Create/Update so callers pass desired junction state in one shape.
- SourceGroup added: name (= snapshot tag), includes/excludes,
retention_policy, retry_max + retry_backoff_seconds, cached
conflict_dimension.
- HostRepoMaintenance added: forget/prune/check cadences + enabled.
- PendingRun added: offline-retry queue.
- Host loses RepoInitialisedAt; gains BandwidthUpKBps + BandwidthDownKBps.
- RetentionPolicy moves home from "schedule field" to "source group
field" but the type itself + Summary() method unchanged.
* store/sources.go (new) — CRUD + GetByName + ConflictDimension cache.
Group writes bump host_schedule_version; conflict cache writes don't
(server-internal projection, agent doesn't see it).
* store/maintenance.go (new) — CreateDefault is idempotent (INSERT OR
IGNORE). UpdateRepoMaintenance doesn't bump schedule version because
these run on the server's own ticker, not the agent's local cron.
* store/pending.go (new) — Enqueue / DueRunsForRetry / Bump / Delete.
* store/schedules.go — rewritten for slim shape + junction CRUD.
Update wipes the schedule_source_groups junction wholesale and
re-inserts (simpler than diffing). Adds SchedulesUsingGroup for
retention-conflict detection + UI labels.
* store/hosts.go — drops repo_initialised_at scan, adds bandwidth scan.
New SetHostBandwidth helper.
* HTTP layer — temporarily stubbed during this rewrite (501 returns
with redesign_in_progress error code). Phase 3 fills these in
against the new shape:
- schedules.go REST CRUD
- schedule_push.go agent reconciliation
- ui_schedules.go HTML form CRUD
Run-now-per-host + Init-repo handlers in ui_handlers.go also stubbed
— both go away in the new model (Run-now per source group; auto-init
at host enrolment).
* enrollment.go — replaces "seed manual schedule from typed paths"
with "seed default source group + repo-maintenance row." The default
group gets the typed paths as its includes; operator edits later
via Sources tab.
* ws/handler.go — drops the MarkHostRepoInitialised projection (column
is gone; auto-init makes it derivable from latest init job's status).
Tests:
* store: existing schedule test rewritten for slim shape + junction;
new sources_test.go covers source-group CRUD, name uniqueness,
conflict cache, repo-maintenance defaults + idempotent seed,
pending-runs queue lifecycle.
* http: schedules_test.go and schedule_push_test.go deleted — both
exercised the obsolete fat-schedule API. Phase 3 rewrites them
against the new endpoints.
go test ./... green. cmd/server + cmd/agent build. The UI is broken
end-to-end (schedules / sources / repo tabs all hit 501 stubs); Phase 3
restores REST + on-the-wire reconciliation; Phase 4 rewires the UI
templates against the new model.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
292 lines
9.6 KiB
Go
292 lines
9.6 KiB
Go
package ws
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import (
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"context"
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"encoding/json"
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"errors"
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"fmt"
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"log/slog"
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stdhttp "net/http"
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"strings"
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"time"
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"github.com/coder/websocket"
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"gitea.dcglab.co.uk/steve/restic-manager/internal/api"
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"gitea.dcglab.co.uk/steve/restic-manager/internal/auth"
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"gitea.dcglab.co.uk/steve/restic-manager/internal/store"
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)
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// HandlerDeps is the set of collaborators the agent WS handler needs.
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type HandlerDeps struct {
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Hub *Hub
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Store *store.Store
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JobHub *JobHub
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// OnHello is called once per successful hello, after the host row
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// has been touched and the conn registered. Used by the HTTP
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// layer to push host_credentials down as a config.update before
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// the agent starts asking for jobs. Optional; nil = no-op.
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OnHello func(ctx context.Context, hostID string, conn *Conn)
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// OnScheduleAck is called when an agent confirms it has applied
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// a particular schedule version (P2-02 reconciliation). Optional.
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OnScheduleAck func(ctx context.Context, hostID string, version int64, appliedAt time.Time)
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// OnScheduleFire is called when an agent's local cron fires. The
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// callback is expected to look up the schedule, persist a job
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// row, and emit MsgCommandRun back on conn so the agent can run
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// the job using its normal job dispatch path. Optional.
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OnScheduleFire func(ctx context.Context, hostID string, conn *Conn, scheduleID string, scheduledAt time.Time)
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}
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// AgentHandler is the http.Handler that owns /ws/agent. Agents
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// authenticate with `Authorization: Bearer <token>` (issued at
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// enrollment) before the WS upgrade.
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//
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// Lifecycle:
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// 1. Bearer token resolves to a Host row.
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// 2. Upgrade.
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// 3. First message must be `hello`; protocol_version checked here.
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// 4. Loop: read messages, dispatch by type. Heartbeats touch the
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// host row; job/log/repo messages forward to the relevant
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// handlers (TODO: lands with P1-18 onward).
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// 5. On Read error or context cancel, mark host offline, unregister
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// from the hub.
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func AgentHandler(deps HandlerDeps) stdhttp.Handler {
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return stdhttp.HandlerFunc(func(w stdhttp.ResponseWriter, r *stdhttp.Request) {
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host, ok := authenticateAgent(r, deps.Store)
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if !ok {
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stdhttp.Error(w, "unauthorized", stdhttp.StatusUnauthorized)
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return
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}
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conn, err := websocket.Accept(w, r, &websocket.AcceptOptions{
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InsecureSkipVerify: true, // Origin checks are pointless for an agent CLI.
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})
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if err != nil {
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slog.Warn("ws accept failed", "err", err, "host_id", host.ID)
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return
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}
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c := NewConn(host.ID, conn)
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// Keep agents alive across NAT boxes; coder/websocket
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// auto-pings under the hood when configured. The default 60s
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// works fine for a 30s heartbeat cadence.
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runAgentLoop(r.Context(), c, host.ID, deps)
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})
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}
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// authenticateAgent returns the host that owns the bearer token in
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// the request, or (nil, false) if anything is amiss. The same
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// "false" path is used for missing header, malformed header, unknown
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// token — no information leak about why.
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func authenticateAgent(r *stdhttp.Request, st *store.Store) (*store.Host, bool) {
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hdr := r.Header.Get("Authorization")
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const prefix = "Bearer "
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if !strings.HasPrefix(hdr, prefix) {
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return nil, false
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}
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token := strings.TrimPrefix(hdr, prefix)
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if token == "" {
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return nil, false
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}
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h, err := st.LookupHostByAgentToken(r.Context(), auth.HashToken(token))
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if err != nil {
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return nil, false
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}
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return h, true
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}
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// runAgentLoop is the per-connection driver. Returns when the socket
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// is closed for any reason. It owns the hub registration: register on
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// hello acceptance, unregister on exit.
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func runAgentLoop(ctx context.Context, c *Conn, hostID string, deps HandlerDeps) {
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// Stage 1: hello (with a tight deadline).
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helloCtx, cancel := context.WithTimeout(ctx, 10*time.Second)
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hello, err := c.Read(helloCtx)
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cancel()
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if err != nil {
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slog.Info("ws hello read failed", "host_id", hostID, "err", err)
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_ = c.Close()
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return
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}
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if hello.Type != api.MsgHello {
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c.SendError(ctx, api.ErrBadRequest, "first message must be hello", "")
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return
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}
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var helloPayload api.HelloPayload
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if err := hello.UnmarshalPayload(&helloPayload); err != nil {
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c.SendError(ctx, api.ErrBadRequest, "malformed hello payload", "")
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return
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}
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if helloPayload.ProtocolVersion < api.MinAgentProtocolVersion {
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c.SendError(ctx, api.ErrProtocolTooOld,
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fmt.Sprintf("agent protocol_version %d below minimum %d",
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helloPayload.ProtocolVersion, api.MinAgentProtocolVersion),
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"https://restic-manager.example/docs/upgrade")
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return
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}
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if helloPayload.ProtocolVersion > api.CurrentProtocolVersion {
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// Forward-compat is fine — newer agents talking to older
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// servers should accept their lower version. Just log it.
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slog.Info("ws agent newer than server",
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"host_id", hostID,
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"agent_proto", helloPayload.ProtocolVersion,
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"server_proto", api.CurrentProtocolVersion)
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}
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now := time.Now().UTC()
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if err := deps.Store.MarkHostHello(ctx, hostID,
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helloPayload.AgentVersion, helloPayload.ResticVersion,
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helloPayload.ProtocolVersion, now); err != nil {
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slog.Error("ws mark host hello failed", "host_id", hostID, "err", err)
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}
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deps.Hub.Register(hostID, c)
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defer deps.Hub.Unregister(hostID, c)
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defer func() { _ = c.Close() }()
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slog.Info("ws agent connected",
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"host_id", hostID,
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"agent_version", helloPayload.AgentVersion,
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"protocol_version", helloPayload.ProtocolVersion)
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if deps.OnHello != nil {
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// Run synchronously so the config.update lands before any
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// command.run an operator might race in.
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deps.OnHello(ctx, hostID, c)
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}
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// Stage 2: main read loop.
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for {
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env, err := c.Read(ctx)
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if err != nil {
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if !errors.Is(err, context.Canceled) {
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slog.Info("ws agent read loop ended", "host_id", hostID, "err", err)
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}
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return
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}
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dispatchAgentMessage(ctx, c, hostID, env, deps)
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}
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}
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// dispatchAgentMessage routes a single envelope to its handler.
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func dispatchAgentMessage(ctx context.Context, c *Conn, hostID string, env api.Envelope, deps HandlerDeps) {
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switch env.Type {
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case api.MsgHeartbeat:
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_ = deps.Store.TouchHost(ctx, hostID, time.Now().UTC())
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case api.MsgJobStarted:
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var p api.JobStartedPayload
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_ = env.UnmarshalPayload(&p)
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if err := deps.Store.MarkJobStarted(ctx, p.JobID, p.StartedAt); err != nil {
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slog.Warn("ws: mark job started", "job_id", p.JobID, "err", err)
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}
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if deps.JobHub != nil {
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deps.JobHub.Broadcast(p.JobID, env)
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}
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case api.MsgJobProgress:
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// Progress ticks aren't persisted (1Hz × every job × every
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// path-walk would dwarf the rest of the DB). The live UI
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// subscribes to JobHub and gets them in real time; once a
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// job finishes the final summary lands via job.finished.
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var p api.JobProgressPayload
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_ = env.UnmarshalPayload(&p)
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if deps.JobHub != nil {
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deps.JobHub.Broadcast(p.JobID, env)
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}
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case api.MsgJobFinished:
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var p api.JobFinishedPayload
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_ = env.UnmarshalPayload(&p)
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errMsg := p.Error
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if err := deps.Store.MarkJobFinished(ctx, p.JobID,
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string(p.Status), p.ExitCode, p.Stats, errMsg, p.FinishedAt); err != nil {
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slog.Warn("ws: mark job finished", "job_id", p.JobID, "err", err)
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}
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// repo_initialised_at projection has been removed — auto-init
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// at host enrolment makes "is the repo init'd" derivable from
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// the latest init job's status, no separate column needed.
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if deps.JobHub != nil {
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deps.JobHub.Broadcast(p.JobID, env)
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}
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case api.MsgLogStream:
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var p api.LogStreamLine
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_ = env.UnmarshalPayload(&p)
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if err := deps.Store.AppendJobLog(ctx, p.JobID, p.Seq, p.TS,
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string(p.Stream), p.Payload); err != nil {
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slog.Warn("ws: append job log", "job_id", p.JobID, "err", err)
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}
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if deps.JobHub != nil {
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deps.JobHub.Broadcast(p.JobID, env)
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}
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case api.MsgSnapshotsRpt:
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var p api.SnapshotsReportPayload
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if err := env.UnmarshalPayload(&p); err != nil {
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slog.Warn("ws: bad snapshots.report payload", "host_id", hostID, "err", err)
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break
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}
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snaps := make([]store.Snapshot, len(p.Snapshots))
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for i, s := range p.Snapshots {
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snaps[i] = store.Snapshot{
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ID: s.ID,
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ShortID: s.ShortID,
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Time: s.Time,
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Hostname: s.Hostname,
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Paths: s.Paths,
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Tags: s.Tags,
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SizeBytes: s.SizeBytes,
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FileCount: s.FileCount,
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}
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}
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if err := deps.Store.ReplaceHostSnapshots(ctx, hostID, snaps, time.Now().UTC()); err != nil {
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slog.Warn("ws: replace snapshots", "host_id", hostID, "err", err)
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} else {
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slog.Info("ws: snapshots refreshed", "host_id", hostID, "count", len(snaps))
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}
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case api.MsgScheduleAck:
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var p api.ScheduleAckPayload
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if err := env.UnmarshalPayload(&p); err != nil {
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slog.Warn("ws: bad schedule.ack payload", "host_id", hostID, "err", err)
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break
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}
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if deps.OnScheduleAck != nil {
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deps.OnScheduleAck(ctx, hostID, p.Version, p.AppliedAt)
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}
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case api.MsgScheduleFire:
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var p api.ScheduleFirePayload
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if err := env.UnmarshalPayload(&p); err != nil {
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slog.Warn("ws: bad schedule.fire payload", "host_id", hostID, "err", err)
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break
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}
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if deps.OnScheduleFire != nil {
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deps.OnScheduleFire(ctx, hostID, c, p.ScheduleID, p.ScheduledAt)
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}
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case api.MsgRepoStats, api.MsgCommandResult:
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// TODO(P2): persist these projections.
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slog.Debug("ws msg not yet handled", "type", env.Type, "host_id", hostID)
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case api.MsgError:
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var ep api.ErrorPayload
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_ = env.UnmarshalPayload(&ep)
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slog.Warn("ws agent reported error", "host_id", hostID,
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"code", string(ep.Code), "message", ep.Message)
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default:
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slog.Warn("ws unknown message type from agent",
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"type", env.Type, "host_id", hostID)
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}
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}
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// MinHeartbeatInterval is a sanity floor — any agent reporting
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// heartbeats more often than this is misbehaving. (Spec says 30s.)
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const MinHeartbeatInterval = 5 * time.Second
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// suppress unused-import false-positives if json drops out later
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var _ = json.Marshal
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