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restic/progress.go

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package restic
import (
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"fmt"
"sync"
"time"
)
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const minTickerTime = time.Second / 60
type Progress struct {
OnStart func()
OnUpdate ProgressFunc
OnDone ProgressFunc
fnM sync.Mutex
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cur Stat
curM sync.Mutex
start time.Time
c *time.Ticker
cancel chan struct{}
o sync.Once
d time.Duration
lastUpdate time.Time
running bool
}
type Stat struct {
Files uint64
Dirs uint64
Bytes uint64
Trees uint64
Blobs uint64
Errors uint64
}
type ProgressFunc func(s Stat, runtime time.Duration, ticker bool)
// NewProgress returns a new progress reporter. When Start() is called, the
// function OnStart is executed once. Afterwards the function OnUpdate is
// called when new data arrives or at least every d interval. The function
// OnDone is called when Done() is called. Both functions are called
// synchronously and can use shared state.
func NewProgress(d time.Duration) *Progress {
return &Progress{d: d}
}
// Start resets and runs the progress reporter.
func (p *Progress) Start() {
if p == nil || p.running {
return
}
p.o = sync.Once{}
p.cancel = make(chan struct{})
p.running = true
p.Reset()
p.start = time.Now()
p.c = time.NewTicker(p.d)
if p.OnStart != nil {
p.OnStart()
}
go p.reporter()
}
// Reset resets all statistic counters to zero.
func (p *Progress) Reset() {
if p == nil {
return
}
if !p.running {
panic("resetting a non-running Progress")
}
p.curM.Lock()
p.cur = Stat{}
p.curM.Unlock()
}
// Report adds the statistics from s to the current state and tries to report
// the accumulated statistics via the feedback channel.
func (p *Progress) Report(s Stat) {
if p == nil {
return
}
if !p.running {
panic("reporting in a non-running Progress")
}
p.curM.Lock()
p.cur.Add(s)
cur := p.cur
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needUpdate := false
if time.Since(p.lastUpdate) > minTickerTime {
p.lastUpdate = time.Now()
needUpdate = true
}
p.curM.Unlock()
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if needUpdate {
p.updateProgress(cur, false)
}
}
func (p *Progress) updateProgress(cur Stat, ticker bool) {
if p.OnUpdate == nil {
return
}
p.fnM.Lock()
p.OnUpdate(cur, time.Since(p.start), ticker)
p.fnM.Unlock()
}
func (p *Progress) reporter() {
if p == nil {
return
}
for {
select {
case <-p.c.C:
p.curM.Lock()
cur := p.cur
p.curM.Unlock()
p.updateProgress(cur, true)
case <-p.cancel:
p.c.Stop()
return
}
}
}
// Done closes the progress report.
func (p *Progress) Done() {
if p == nil || !p.running {
return
}
p.running = false
p.o.Do(func() {
close(p.cancel)
})
cur := p.cur
if p.OnDone != nil {
p.fnM.Lock()
p.OnDone(cur, time.Since(p.start), false)
p.fnM.Unlock()
}
}
// Add accumulates other into s.
func (s *Stat) Add(other Stat) {
s.Bytes += other.Bytes
s.Dirs += other.Dirs
s.Files += other.Files
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s.Trees += other.Trees
s.Blobs += other.Blobs
s.Errors += other.Errors
}
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func (s Stat) String() string {
b := float64(s.Bytes)
var str string
switch {
case s.Bytes > 1<<40:
str = fmt.Sprintf("%.3f TiB", b/(1<<40))
case s.Bytes > 1<<30:
str = fmt.Sprintf("%.3f GiB", b/(1<<30))
case s.Bytes > 1<<20:
str = fmt.Sprintf("%.3f MiB", b/(1<<20))
case s.Bytes > 1<<10:
str = fmt.Sprintf("%.3f KiB", b/(1<<10))
default:
str = fmt.Sprintf("%dB", s.Bytes)
}
return fmt.Sprintf("Stat(%d files, %d dirs, %v trees, %v blobs, %d errors, %v)",
s.Files, s.Dirs, s.Trees, s.Blobs, s.Errors, str)
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}