open-vault/helper/locksutil/locks.go

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package locksutil
import (
"crypto/md5"
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"sync"
)
const (
LockCount = 256
)
type LockEntry struct {
sync.RWMutex
}
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// CreateLocks returns an array so that the locks can be iterated over in
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// order.
//
// This is only threadsafe if a process is using a single lock, or iterating
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// over the entire lock slice in order. Using a consistent order avoids
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// deadlocks because you can never have the following:
//
// Lock A, Lock B
// Lock B, Lock A
//
// Where process 1 is now deadlocked trying to lock B, and process 2 deadlocked trying to lock A
//
func CreateLocks() []*LockEntry {
ret := make([]*LockEntry, LockCount)
for i := range ret {
ret[i] = new(LockEntry)
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}
return ret
}
func LockIndexForKey(key string) uint8 {
hf := md5.New()
hf.Write([]byte(key))
return uint8(hf.Sum(nil)[0])
}
func LockForKey(locks []*LockEntry, key string) *LockEntry {
return locks[LockIndexForKey(key)]
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}
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func LocksForKeys(locks []*LockEntry, keys []string) []*LockEntry {
lockIndexes := make(map[uint8]struct{}, len(keys))
for _, k := range keys {
lockIndexes[LockIndexForKey(k)] = struct{}{}
}
locksToReturn := make([]*LockEntry, 0, len(keys))
for i, l := range locks {
if _, ok := lockIndexes[uint8(i)]; ok {
locksToReturn = append(locksToReturn, l)
}
}
return locksToReturn
}