序
本文主要研究一下storagetapper的cache
cache
storagetapper/pipe/cache.go
type cacheEntry struct {
pipe Pipe
cfg config.PipeConfig
}
var cache map[string]cacheEntry
var lock sync.Mutex
cache是一个cacheEntry的map,cacheEntry定义了Pipe和config.PipeConfig
CacheGet
storagetapper/pipe/cache.go
// CacheGet returns an instance of pipe with specified config from cache or
// creates new one if it's not in the cache yet
func CacheGet(pipeType string, cfg *config.PipeConfig, db *sql.DB) (Pipe, error) {
lock.Lock()
defer lock.Unlock()
if cache == nil {
cache = make(map[string]cacheEntry)
}
b, err := json.Marshal(cfg)
if err != nil {
return nil, err
}
h := sha256.New()
_, _ = h.Write([]byte(pipeType + "$$$" + fmt.Sprintf("%p", db) + "$$$"))
_, _ = h.Write(b)
hs := fmt.Sprintf("%0x", h.Sum(nil))
p, ok := cache[hs]
if ok && reflect.DeepEqual(cfg, &p.cfg) {
return p.pipe, nil
}
//FIXME: Implement proper collisions handling
np, err := Create(pipeType, cfg, db)
if err != nil {
return nil, err
}
cache[hs] = cacheEntry{np, *cfg}
log.Debugf("Created and cached new '%v' pipe (hash %v) with config: %+v. Cache size %v", pipeType, hs, *cfg, len(cache))
return np, nil
}
CacheGet方法加锁操作cache,首先通过sha256来对pipeType及db来作为cache的key,然后取出cacheEntry,若存在则判断cfg与cacheEntry的cfg是否一样,如果一样则返回cacheEntry的pipe;否则通过Create创建Pipe,然后放入cache中
CacheDestroy
storagetapper/pipe/cache.go
// CacheDestroy releases all resources associated with cached pipes
func CacheDestroy() {
lock.Lock()
defer lock.Unlock()
for h, p := range cache {
log.Debugf("Closing %v pipe (hash %v) with config %+v", p.pipe.Type(), h, p.cfg)
log.E(p.pipe.Close())
}
cache = nil
}
CacheDestroy方法通过加锁遍历cache,挨个执行pipe.Close()
小结
storagetapper的cache是一个cacheEntry的map,cacheEntry定义了Pipe和config.PipeConfig;CacheGet方法会获取cache,获取不到则Create;CacheDestroy则会通过加锁遍历cache,挨个执行pipe.Close()。
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