open-nomad/nomad/timetable.go

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package nomad
import (
"sort"
"sync"
"time"
"github.com/hashicorp/go-msgpack/codec"
)
// TimeTable is used to associate a Raft index with a timestamp.
// This is used so that we can quickly go from a timestamp to an
// index or visa versa.
type TimeTable struct {
granularity time.Duration
limit time.Duration
table []TimeTableEntry
l sync.RWMutex
}
// TimeTableEntry is used to track a time and index
type TimeTableEntry struct {
Index uint64
Time time.Time
}
// NewTimeTable creates a new time table which stores entries
// at a given granularity for a maximum limit. The storage space
// required is (limit/granularity)
func NewTimeTable(granularity time.Duration, limit time.Duration) *TimeTable {
size := limit / granularity
if size < 1 {
size = 1
}
t := &TimeTable{
granularity: granularity,
limit: limit,
table: make([]TimeTableEntry, 1, size),
}
return t
}
// Serialize is used to serialize the time table
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func (t *TimeTable) Serialize(enc *codec.Encoder) error {
t.l.RLock()
defer t.l.RUnlock()
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return enc.Encode(t.table)
}
// Deserialize is used to deserialize the time table
// and restore the state
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func (t *TimeTable) Deserialize(dec *codec.Decoder) error {
// Decode the table
var table []TimeTableEntry
if err := dec.Decode(&table); err != nil {
return err
}
// Witness from oldest to newest
n := len(table)
for i := n - 1; i >= 0; i-- {
t.Witness(table[i].Index, table[i].Time)
}
return nil
}
// Witness is used to witness a new index and time.
func (t *TimeTable) Witness(index uint64, when time.Time) {
t.l.Lock()
defer t.l.Unlock()
// Ensure monotonic indexes
if t.table[0].Index > index {
return
}
// Skip if we already have a recent enough entry
if when.Sub(t.table[0].Time) < t.granularity {
return
}
// Grow the table if we haven't reached the size
if len(t.table) < cap(t.table) {
t.table = append(t.table, TimeTableEntry{})
}
// Add this entry
copy(t.table[1:], t.table[:len(t.table)-1])
t.table[0].Index = index
t.table[0].Time = when
}
// NearestIndex returns the nearest index older than the given time
func (t *TimeTable) NearestIndex(when time.Time) uint64 {
t.l.RLock()
defer t.l.RUnlock()
n := len(t.table)
idx := sort.Search(n, func(i int) bool {
return !t.table[i].Time.After(when)
})
if idx < n && idx >= 0 {
return t.table[idx].Index
}
return 0
}
// NearestTime returns the nearest time older than the given index
func (t *TimeTable) NearestTime(index uint64) time.Time {
t.l.RLock()
defer t.l.RUnlock()
n := len(t.table)
idx := sort.Search(n, func(i int) bool {
return t.table[i].Index <= index
})
if idx < n && idx >= 0 {
return t.table[idx].Time
}
return time.Time{}
}