mirror of
https://github.com/zrepl/zrepl.git
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10a14a8c50
package trace: - introduce the concept of tasks and spans, tracked as linked list within ctx - see package-level docs for an overview of the concepts - **main feature 1**: unique stack of task and span IDs - makes it easy to follow a series of log entries in concurrent code - **main feature 2**: ability to produce a chrome://tracing-compatible trace file - either via an env variable or a `zrepl pprof` subcommand - this is not a CPU profile, we already have go pprof for that - but it is very useful to visually inspect where the replication / snapshotter / pruner spends its time ( fixes #307 ) usage in package daemon/logging: - goal: every log entry should have a trace field with the ID stack from package trace - make `logging.GetLogger(ctx, Subsys)` the authoritative `logger.Logger` factory function - the context carries a linked list of injected fields which `logging.GetLogger` adds to the logger it returns - `logging.GetLogger` also uses package `trace` to get the task-and-span-stack and injects it into the returned logger's fields
500 lines
12 KiB
Go
500 lines
12 KiB
Go
package snapper
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import (
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"context"
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"fmt"
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"sort"
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"sync"
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"time"
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"github.com/pkg/errors"
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"github.com/zrepl/zrepl/daemon/logging/trace"
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"github.com/zrepl/zrepl/config"
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"github.com/zrepl/zrepl/daemon/filters"
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"github.com/zrepl/zrepl/daemon/hooks"
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"github.com/zrepl/zrepl/daemon/logging"
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"github.com/zrepl/zrepl/logger"
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"github.com/zrepl/zrepl/util/envconst"
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"github.com/zrepl/zrepl/zfs"
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)
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//go:generate stringer -type=SnapState
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type SnapState uint
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const (
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SnapPending SnapState = 1 << iota
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SnapStarted
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SnapDone
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SnapError
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)
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// All fields protected by Snapper.mtx
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type snapProgress struct {
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state SnapState
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// SnapStarted, SnapDone, SnapError
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name string
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startAt time.Time
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hookPlan *hooks.Plan
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// SnapDone
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doneAt time.Time
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// SnapErr TODO disambiguate state
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runResults hooks.PlanReport
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}
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type args struct {
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ctx context.Context
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prefix string
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interval time.Duration
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fsf *filters.DatasetMapFilter
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snapshotsTaken chan<- struct{}
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hooks *hooks.List
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dryRun bool
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}
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type Snapper struct {
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args args
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mtx sync.Mutex
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state State
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// set in state Plan, used in Waiting
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lastInvocation time.Time
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// valid for state Snapshotting
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plan map[*zfs.DatasetPath]*snapProgress
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// valid for state SyncUp and Waiting
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sleepUntil time.Time
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// valid for state Err
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err error
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}
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//go:generate stringer -type=State
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type State uint
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const (
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SyncUp State = 1 << iota
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SyncUpErrWait
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Planning
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Snapshotting
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Waiting
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ErrorWait
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Stopped
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)
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func (s State) sf() state {
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m := map[State]state{
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SyncUp: syncUp,
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SyncUpErrWait: wait,
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Planning: plan,
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Snapshotting: snapshot,
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Waiting: wait,
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ErrorWait: wait,
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Stopped: nil,
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}
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return m[s]
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}
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type updater func(u func(*Snapper)) State
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type state func(a args, u updater) state
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type Logger = logger.Logger
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func getLogger(ctx context.Context) Logger {
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return logging.GetLogger(ctx, logging.SubsysSnapshot)
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}
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func PeriodicFromConfig(g *config.Global, fsf *filters.DatasetMapFilter, in *config.SnapshottingPeriodic) (*Snapper, error) {
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if in.Prefix == "" {
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return nil, errors.New("prefix must not be empty")
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}
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if in.Interval <= 0 {
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return nil, errors.New("interval must be positive")
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}
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hookList, err := hooks.ListFromConfig(&in.Hooks)
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if err != nil {
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return nil, errors.Wrap(err, "hook config error")
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}
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args := args{
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prefix: in.Prefix,
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interval: in.Interval,
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fsf: fsf,
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hooks: hookList,
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// ctx and log is set in Run()
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}
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return &Snapper{state: SyncUp, args: args}, nil
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}
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func (s *Snapper) Run(ctx context.Context, snapshotsTaken chan<- struct{}) {
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defer trace.WithSpanFromStackUpdateCtx(&ctx)()
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getLogger(ctx).Debug("start")
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defer getLogger(ctx).Debug("stop")
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s.args.snapshotsTaken = snapshotsTaken
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s.args.ctx = ctx
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s.args.dryRun = false // for future expansion
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u := func(u func(*Snapper)) State {
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s.mtx.Lock()
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defer s.mtx.Unlock()
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if u != nil {
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u(s)
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}
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return s.state
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}
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var st state = syncUp
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for st != nil {
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pre := u(nil)
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st = st(s.args, u)
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post := u(nil)
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getLogger(ctx).
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WithField("transition", fmt.Sprintf("%s=>%s", pre, post)).
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Debug("state transition")
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}
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}
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func onErr(err error, u updater) state {
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return u(func(s *Snapper) {
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s.err = err
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preState := s.state
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switch s.state {
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case SyncUp:
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s.state = SyncUpErrWait
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case Planning:
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fallthrough
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case Snapshotting:
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s.state = ErrorWait
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}
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getLogger(s.args.ctx).WithError(err).WithField("pre_state", preState).WithField("post_state", s.state).Error("snapshotting error")
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}).sf()
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}
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func onMainCtxDone(ctx context.Context, u updater) state {
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return u(func(s *Snapper) {
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s.err = ctx.Err()
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s.state = Stopped
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}).sf()
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}
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func syncUp(a args, u updater) state {
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u(func(snapper *Snapper) {
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snapper.lastInvocation = time.Now()
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})
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fss, err := listFSes(a.ctx, a.fsf)
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if err != nil {
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return onErr(err, u)
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}
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syncPoint, err := findSyncPoint(a.ctx, fss, a.prefix, a.interval)
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if err != nil {
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return onErr(err, u)
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}
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u(func(s *Snapper) {
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s.sleepUntil = syncPoint
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})
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t := time.NewTimer(time.Until(syncPoint))
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defer t.Stop()
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select {
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case <-t.C:
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return u(func(s *Snapper) {
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s.state = Planning
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}).sf()
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case <-a.ctx.Done():
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return onMainCtxDone(a.ctx, u)
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}
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}
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func plan(a args, u updater) state {
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u(func(snapper *Snapper) {
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snapper.lastInvocation = time.Now()
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})
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fss, err := listFSes(a.ctx, a.fsf)
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if err != nil {
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return onErr(err, u)
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}
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plan := make(map[*zfs.DatasetPath]*snapProgress, len(fss))
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for _, fs := range fss {
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plan[fs] = &snapProgress{state: SnapPending}
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}
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return u(func(s *Snapper) {
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s.state = Snapshotting
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s.plan = plan
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s.err = nil
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}).sf()
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}
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func snapshot(a args, u updater) state {
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var plan map[*zfs.DatasetPath]*snapProgress
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u(func(snapper *Snapper) {
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plan = snapper.plan
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})
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hookMatchCount := make(map[hooks.Hook]int, len(*a.hooks))
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for _, h := range *a.hooks {
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hookMatchCount[h] = 0
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}
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anyFsHadErr := false
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// TODO channel programs -> allow a little jitter?
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for fs, progress := range plan {
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suffix := time.Now().In(time.UTC).Format("20060102_150405_000")
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snapname := fmt.Sprintf("%s%s", a.prefix, suffix)
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ctx := logging.WithInjectedField(a.ctx, "fs", fs.ToString())
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ctx = logging.WithInjectedField(ctx, "snap", snapname)
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hookEnvExtra := hooks.Env{
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hooks.EnvFS: fs.ToString(),
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hooks.EnvSnapshot: snapname,
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}
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jobCallback := hooks.NewCallbackHookForFilesystem("snapshot", fs, func(ctx context.Context) (err error) {
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l := getLogger(ctx)
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l.Debug("create snapshot")
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err = zfs.ZFSSnapshot(ctx, fs, snapname, false) // TODO propagate context to ZFSSnapshot
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if err != nil {
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l.WithError(err).Error("cannot create snapshot")
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}
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return
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})
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fsHadErr := false
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var planReport hooks.PlanReport
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var plan *hooks.Plan
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{
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filteredHooks, err := a.hooks.CopyFilteredForFilesystem(fs)
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if err != nil {
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getLogger(ctx).WithError(err).Error("unexpected filter error")
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fsHadErr = true
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goto updateFSState
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}
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// account for running hooks
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for _, h := range filteredHooks {
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hookMatchCount[h] = hookMatchCount[h] + 1
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}
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var planErr error
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plan, planErr = hooks.NewPlan(&filteredHooks, hooks.PhaseSnapshot, jobCallback, hookEnvExtra)
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if planErr != nil {
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fsHadErr = true
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getLogger(ctx).WithError(planErr).Error("cannot create job hook plan")
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goto updateFSState
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}
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}
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u(func(snapper *Snapper) {
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progress.name = snapname
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progress.startAt = time.Now()
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progress.hookPlan = plan
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progress.state = SnapStarted
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})
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{
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getLogger(ctx).WithField("report", plan.Report().String()).Debug("begin run job plan")
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plan.Run(ctx, a.dryRun)
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planReport = plan.Report()
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fsHadErr = planReport.HadError() // not just fatal errors
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if fsHadErr {
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getLogger(ctx).WithField("report", planReport.String()).Error("end run job plan with error")
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} else {
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getLogger(ctx).WithField("report", planReport.String()).Info("end run job plan successful")
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}
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}
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updateFSState:
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anyFsHadErr = anyFsHadErr || fsHadErr
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u(func(snapper *Snapper) {
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progress.doneAt = time.Now()
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progress.state = SnapDone
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if fsHadErr {
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progress.state = SnapError
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}
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progress.runResults = planReport
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})
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}
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select {
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case a.snapshotsTaken <- struct{}{}:
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default:
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if a.snapshotsTaken != nil {
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getLogger(a.ctx).Warn("callback channel is full, discarding snapshot update event")
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}
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}
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for h, mc := range hookMatchCount {
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if mc == 0 {
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hookIdx := -1
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for idx, ah := range *a.hooks {
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if ah == h {
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hookIdx = idx
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break
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}
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}
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getLogger(a.ctx).WithField("hook", h.String()).WithField("hook_number", hookIdx+1).Warn("hook did not match any snapshotted filesystems")
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}
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}
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return u(func(snapper *Snapper) {
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if anyFsHadErr {
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snapper.state = ErrorWait
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snapper.err = errors.New("one or more snapshots could not be created, check logs for details")
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} else {
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snapper.state = Waiting
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snapper.err = nil
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}
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}).sf()
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}
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func wait(a args, u updater) state {
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var sleepUntil time.Time
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u(func(snapper *Snapper) {
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lastTick := snapper.lastInvocation
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snapper.sleepUntil = lastTick.Add(a.interval)
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sleepUntil = snapper.sleepUntil
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log := getLogger(a.ctx).WithField("sleep_until", sleepUntil).WithField("duration", a.interval)
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logFunc := log.Debug
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if snapper.state == ErrorWait || snapper.state == SyncUpErrWait {
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logFunc = log.Error
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}
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logFunc("enter wait-state after error")
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})
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t := time.NewTimer(time.Until(sleepUntil))
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defer t.Stop()
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select {
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case <-t.C:
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return u(func(snapper *Snapper) {
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snapper.state = Planning
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}).sf()
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case <-a.ctx.Done():
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return onMainCtxDone(a.ctx, u)
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}
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}
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func listFSes(ctx context.Context, mf *filters.DatasetMapFilter) (fss []*zfs.DatasetPath, err error) {
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return zfs.ZFSListMapping(ctx, mf)
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}
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var syncUpWarnNoSnapshotUntilSyncupMinDuration = envconst.Duration("ZREPL_SNAPPER_SYNCUP_WARN_MIN_DURATION", 1*time.Second)
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// see docs/snapshotting.rst
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func findSyncPoint(ctx context.Context, fss []*zfs.DatasetPath, prefix string, interval time.Duration) (syncPoint time.Time, err error) {
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const (
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prioHasVersions int = iota
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prioNoVersions
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)
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type snapTime struct {
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ds *zfs.DatasetPath
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prio int // lower is higher
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time time.Time
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}
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if len(fss) == 0 {
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return time.Now(), nil
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}
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snaptimes := make([]snapTime, 0, len(fss))
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hardErrs := 0
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now := time.Now()
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getLogger(ctx).Debug("examine filesystem state to find sync point")
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for _, d := range fss {
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ctx := logging.WithInjectedField(ctx, "fs", d.ToString())
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syncPoint, err := findSyncPointFSNextOptimalSnapshotTime(ctx, now, interval, prefix, d)
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if err == findSyncPointFSNoFilesystemVersionsErr {
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snaptimes = append(snaptimes, snapTime{
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ds: d,
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prio: prioNoVersions,
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time: now,
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})
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} else if err != nil {
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hardErrs++
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getLogger(ctx).WithError(err).Error("cannot determine optimal sync point for this filesystem")
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} else {
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getLogger(ctx).WithField("syncPoint", syncPoint).Debug("found optimal sync point for this filesystem")
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snaptimes = append(snaptimes, snapTime{
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ds: d,
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prio: prioHasVersions,
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time: syncPoint,
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})
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}
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}
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if hardErrs == len(fss) {
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return time.Time{}, fmt.Errorf("hard errors in determining sync point for every matching filesystem")
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}
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if len(snaptimes) == 0 {
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panic("implementation error: loop must either inc hardErrs or add result to snaptimes")
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}
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// sort ascending by (prio,time)
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// => those filesystems with versions win over those without any
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sort.Slice(snaptimes, func(i, j int) bool {
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if snaptimes[i].prio == snaptimes[j].prio {
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return snaptimes[i].time.Before(snaptimes[j].time)
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}
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return snaptimes[i].prio < snaptimes[j].prio
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})
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winnerSyncPoint := snaptimes[0].time
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l := getLogger(ctx).WithField("syncPoint", winnerSyncPoint.String())
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l.Info("determined sync point")
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if winnerSyncPoint.Sub(now) > syncUpWarnNoSnapshotUntilSyncupMinDuration {
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for _, st := range snaptimes {
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if st.prio == prioNoVersions {
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l.WithField("fs", st.ds.ToString()).Warn("filesystem will not be snapshotted until sync point")
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}
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}
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}
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return snaptimes[0].time, nil
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}
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var findSyncPointFSNoFilesystemVersionsErr = fmt.Errorf("no filesystem versions")
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func findSyncPointFSNextOptimalSnapshotTime(ctx context.Context, now time.Time, interval time.Duration, prefix string, d *zfs.DatasetPath) (time.Time, error) {
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fsvs, err := zfs.ZFSListFilesystemVersions(ctx, d, zfs.ListFilesystemVersionsOptions{
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Types: zfs.Snapshots,
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ShortnamePrefix: prefix,
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})
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if err != nil {
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return time.Time{}, errors.Wrap(err, "list filesystem versions")
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}
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if len(fsvs) <= 0 {
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return time.Time{}, findSyncPointFSNoFilesystemVersionsErr
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}
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// Sort versions by creation
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sort.SliceStable(fsvs, func(i, j int) bool {
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return fsvs[i].CreateTXG < fsvs[j].CreateTXG
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})
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latest := fsvs[len(fsvs)-1]
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getLogger(ctx).WithField("creation", latest.Creation).Debug("found latest snapshot")
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since := now.Sub(latest.Creation)
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if since < 0 {
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return time.Time{}, fmt.Errorf("snapshot %q is from the future: creation=%q now=%q", latest.ToAbsPath(d), latest.Creation, now)
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}
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return latest.Creation.Add(interval), nil
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}
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