meditime/vendor/github.com/dgraph-io/ristretto/z/z.go

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/*
* Copyright 2019 Dgraph Labs, Inc. and Contributors
*
* 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 z
import (
"context"
"sync"
"github.com/cespare/xxhash"
)
// TODO: Figure out a way to re-use memhash for the second uint64 hash, we
// already know that appending bytes isn't reliable for generating a
// second hash (see Ristretto PR #88).
//
// We also know that while the Go runtime has a runtime memhash128
// function, it's not possible to use it to generate [2]uint64 or
// anything resembling a 128bit hash, even though that's exactly what
// we need in this situation.
func KeyToHash(key interface{}) (uint64, uint64) {
if key == nil {
return 0, 0
}
switch k := key.(type) {
case uint64:
return k, 0
case string:
return MemHashString(k), xxhash.Sum64String(k)
case []byte:
return MemHash(k), xxhash.Sum64(k)
case byte:
return uint64(k), 0
case int:
return uint64(k), 0
case int32:
return uint64(k), 0
case uint32:
return uint64(k), 0
case int64:
return uint64(k), 0
default:
panic("Key type not supported")
}
}
var (
dummyCloserChan <-chan struct{}
tmpDir string
)
// Closer holds the two things we need to close a goroutine and wait for it to
// finish: a chan to tell the goroutine to shut down, and a WaitGroup with
// which to wait for it to finish shutting down.
type Closer struct {
waiting sync.WaitGroup
ctx context.Context
cancel context.CancelFunc
}
// SetTmpDir sets the temporary directory for the temporary buffers.
func SetTmpDir(dir string) {
tmpDir = dir
}
// NewCloser constructs a new Closer, with an initial count on the WaitGroup.
func NewCloser(initial int) *Closer {
ret := &Closer{}
ret.ctx, ret.cancel = context.WithCancel(context.Background())
ret.waiting.Add(initial)
return ret
}
// AddRunning Add()'s delta to the WaitGroup.
func (lc *Closer) AddRunning(delta int) {
lc.waiting.Add(delta)
}
// Ctx can be used to get a context, which would automatically get cancelled when Signal is called.
func (lc *Closer) Ctx() context.Context {
if lc == nil {
return context.Background()
}
return lc.ctx
}
// Signal signals the HasBeenClosed signal.
func (lc *Closer) Signal() {
// Todo(ibrahim): Change Signal to return error on next badger breaking change.
lc.cancel()
}
// HasBeenClosed gets signaled when Signal() is called.
func (lc *Closer) HasBeenClosed() <-chan struct{} {
if lc == nil {
return dummyCloserChan
}
return lc.ctx.Done()
}
// Done calls Done() on the WaitGroup.
func (lc *Closer) Done() {
if lc == nil {
return
}
lc.waiting.Done()
}
// Wait waits on the WaitGroup. (It waits for NewCloser's initial value, AddRunning, and Done
// calls to balance out.)
func (lc *Closer) Wait() {
lc.waiting.Wait()
}
// SignalAndWait calls Signal(), then Wait().
func (lc *Closer) SignalAndWait() {
lc.Signal()
lc.Wait()
}
// ZeroOut zeroes out all the bytes in the range [start, end).
func ZeroOut(dst []byte, start, end int) {
if start < 0 || start >= len(dst) {
return // BAD
}
if end >= len(dst) {
end = len(dst)
}
if end-start <= 0 {
return
}
Memclr(dst[start:end])
// b := dst[start:end]
// for i := range b {
// b[i] = 0x0
// }
}