open-vault/physical/inmem_ha.go
2015-04-14 12:04:15 -07:00

98 lines
1.7 KiB
Go

package physical
import (
"fmt"
"sync"
)
type InmemHABackend struct {
InmemBackend
locks map[string]*sync.Mutex
l sync.Mutex
}
// NewInmemHA constructs a new in-memory HA backend. This is only for testing.
func NewInmemHA() *InmemHABackend {
in := &InmemHABackend{
InmemBackend: *NewInmem(),
locks: make(map[string]*sync.Mutex),
}
return in
}
// LockWith is used for mutual exclusion based on the given key.
func (i *InmemHABackend) LockWith(key string) (Lock, error) {
i.l.Lock()
defer i.l.Unlock()
mutex, ok := i.locks[key]
if !ok {
mutex = new(sync.Mutex)
i.locks[key] = mutex
}
return &InmemLock{mutex: mutex}, nil
}
// InmemLock is an in-memory Lock implementation for the HABackend
type InmemLock struct {
// mutex is the underlying mutex, may be shared between
// instances of InmemLock
mutex *sync.Mutex
held bool
leaderCh chan struct{}
l sync.Mutex
}
func (i *InmemLock) Lock(stopCh <-chan struct{}) (<-chan struct{}, error) {
i.l.Lock()
defer i.l.Unlock()
if i.held {
return nil, fmt.Errorf("lock already held")
}
// Attempt an async acquisition
didLock := make(chan struct{})
releaseCh := make(chan bool, 1)
go func() {
i.mutex.Lock()
close(didLock)
// Handle an early abort
release := <-releaseCh
if release {
i.mutex.Unlock()
}
}()
// Wait for lock acquisition or shutdown
select {
case <-didLock:
releaseCh <- false
case <-stopCh:
releaseCh <- true
return nil, nil
}
// Create the leader channel
i.held = true
i.leaderCh = make(chan struct{})
return i.leaderCh, nil
}
func (i *InmemLock) Unlock() error {
i.l.Lock()
defer i.l.Unlock()
if !i.held {
return nil
}
close(i.leaderCh)
i.leaderCh = nil
i.held = false
i.mutex.Unlock()
return nil
}