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timed_store.go
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timed_store.go
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// Copyright 2014 Google Inc. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package utils
import (
"sort"
"time"
)
type timedStoreDataSlice []timedStoreData
func (t timedStoreDataSlice) Less(i, j int) bool {
return t[i].timestamp.Before(t[j].timestamp)
}
func (t timedStoreDataSlice) Len() int {
return len(t)
}
func (t timedStoreDataSlice) Swap(i, j int) {
t[i], t[j] = t[j], t[i]
}
// A time-based buffer for ContainerStats.
// Holds information for a specific time period and/or a max number of items.
type TimedStore struct {
buffer timedStoreDataSlice
age time.Duration
maxItems int
}
type timedStoreData struct {
timestamp time.Time
data interface{}
}
// Returns a new thread-compatible TimedStore.
// A maxItems value of -1 means no limit.
func NewTimedStore(age time.Duration, maxItems int) *TimedStore {
return &TimedStore{
buffer: make(timedStoreDataSlice, 0),
age: age,
maxItems: maxItems,
}
}
// Adds an element to the start of the buffer (removing one from the end if necessary).
func (self *TimedStore) Add(timestamp time.Time, item interface{}) {
data := timedStoreData{
timestamp: timestamp,
data: item,
}
// Common case: data is added in order.
if len(self.buffer) == 0 || !timestamp.Before(self.buffer[len(self.buffer)-1].timestamp) {
self.buffer = append(self.buffer, data)
} else {
// Data is out of order; insert it in the correct position.
index := sort.Search(len(self.buffer), func(index int) bool {
return self.buffer[index].timestamp.After(timestamp)
})
self.buffer = append(self.buffer, timedStoreData{}) // Make room to shift the elements
copy(self.buffer[index+1:], self.buffer[index:]) // Shift the elements over
self.buffer[index] = data
}
// Remove any elements before eviction time.
// TODO(rjnagal): This is assuming that the added entry has timestamp close to now.
evictTime := timestamp.Add(-self.age)
index := sort.Search(len(self.buffer), func(index int) bool {
return self.buffer[index].timestamp.After(evictTime)
})
if index < len(self.buffer) {
self.buffer = self.buffer[index:]
}
// Remove any elements if over our max size.
if self.maxItems >= 0 && len(self.buffer) > self.maxItems {
startIndex := len(self.buffer) - self.maxItems
self.buffer = self.buffer[startIndex:]
}
}
// Returns up to maxResult elements in the specified time period (inclusive).
// Results are from first to last. maxResults of -1 means no limit.
func (self *TimedStore) InTimeRange(start, end time.Time, maxResults int) []interface{} {
// No stats, return empty.
if len(self.buffer) == 0 {
return []interface{}{}
}
var startIndex int
if start.IsZero() {
// None specified, start at the beginning.
startIndex = len(self.buffer) - 1
} else {
// Start is the index before the elements smaller than it. We do this by
// finding the first element smaller than start and taking the index
// before that element
startIndex = sort.Search(len(self.buffer), func(index int) bool {
// buffer[index] < start
return self.getData(index).timestamp.Before(start)
}) - 1
// Check if start is after all the data we have.
if startIndex < 0 {
return []interface{}{}
}
}
var endIndex int
if end.IsZero() {
// None specified, end with the latest stats.
endIndex = 0
} else {
// End is the first index smaller than or equal to it (so, not larger).
endIndex = sort.Search(len(self.buffer), func(index int) bool {
// buffer[index] <= t -> !(buffer[index] > t)
return !self.getData(index).timestamp.After(end)
})
// Check if end is before all the data we have.
if endIndex == len(self.buffer) {
return []interface{}{}
}
}
// Trim to maxResults size.
numResults := startIndex - endIndex + 1
if maxResults != -1 && numResults > maxResults {
startIndex -= numResults - maxResults
numResults = maxResults
}
// Return in sorted timestamp order so from the "back" to "front".
result := make([]interface{}, numResults)
for i := 0; i < numResults; i++ {
result[i] = self.Get(startIndex - i)
}
return result
}
// Gets the element at the specified index. Note that elements are output in LIFO order.
func (self *TimedStore) Get(index int) interface{} {
return self.getData(index).data
}
// Gets the data at the specified index. Note that elements are output in LIFO order.
func (self *TimedStore) getData(index int) timedStoreData {
return self.buffer[len(self.buffer)-index-1]
}
func (self *TimedStore) Size() int {
return len(self.buffer)
}