// Copyright 2020 The gVisor Authors. // // 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 refsvfs2 import ( "fmt" "gvisor.dev/gvisor/pkg/log" refs_vfs1 "gvisor.dev/gvisor/pkg/refs" "gvisor.dev/gvisor/pkg/sync" ) var ( // liveObjects is a global map of reference-counted objects. Objects are // inserted when leak check is enabled, and they are removed when they are // destroyed. It is protected by liveObjectsMu. liveObjects map[CheckedObject]struct{} liveObjectsMu sync.Mutex ) // CheckedObject represents a reference-counted object with an informative // leak detection message. type CheckedObject interface { // RefType is the type of the reference-counted object. RefType() string // LeakMessage supplies a warning to be printed upon leak detection. LeakMessage() string // LogRefs indicates whether reference-related events should be logged. LogRefs() bool } func init() { liveObjects = make(map[CheckedObject]struct{}) } // leakCheckEnabled returns whether leak checking is enabled. The following // functions should only be called if it returns true. func leakCheckEnabled() bool { return refs_vfs1.GetLeakMode() != refs_vfs1.NoLeakChecking } // Register adds obj to the live object map. func Register(obj CheckedObject) { if leakCheckEnabled() { liveObjectsMu.Lock() if _, ok := liveObjects[obj]; ok { panic(fmt.Sprintf("Unexpected entry in leak checking map: reference %p already added", obj)) } liveObjects[obj] = struct{}{} liveObjectsMu.Unlock() if leakCheckEnabled() && obj.LogRefs() { logEvent(obj, "registered") } } } // Unregister removes obj from the live object map. func Unregister(obj CheckedObject) { if leakCheckEnabled() { liveObjectsMu.Lock() defer liveObjectsMu.Unlock() if _, ok := liveObjects[obj]; !ok { panic(fmt.Sprintf("Expected to find entry in leak checking map for reference %p", obj)) } delete(liveObjects, obj) if leakCheckEnabled() && obj.LogRefs() { logEvent(obj, "unregistered") } } } // LogIncRef logs a reference increment. func LogIncRef(obj CheckedObject, refs int64) { if leakCheckEnabled() && obj.LogRefs() { logEvent(obj, fmt.Sprintf("IncRef to %d", refs)) } } // LogTryIncRef logs a successful TryIncRef call. func LogTryIncRef(obj CheckedObject, refs int64) { if leakCheckEnabled() && obj.LogRefs() { logEvent(obj, fmt.Sprintf("TryIncRef to %d", refs)) } } // LogDecRef logs a reference decrement. func LogDecRef(obj CheckedObject, refs int64) { if leakCheckEnabled() && obj.LogRefs() { logEvent(obj, fmt.Sprintf("DecRef to %d", refs)) } } // logEvent logs a message for the given reference-counted object. // // obj.LogRefs() should be checked before calling logEvent, in order to avoid // calling any text processing needed to evaluate msg. func logEvent(obj CheckedObject, msg string) { log.Infof("[%s %p] %s:", obj.RefType(), obj, msg) log.Infof(refs_vfs1.FormatStack(refs_vfs1.RecordStack())) } // DoLeakCheck iterates through the live object map and logs a message for each // object. It is called once no reference-counted objects should be reachable // anymore, at which point anything left in the map is considered a leak. func DoLeakCheck() { if leakCheckEnabled() { liveObjectsMu.Lock() defer liveObjectsMu.Unlock() leaked := len(liveObjects) if leaked > 0 { log.Warningf("Leak checking detected %d leaked objects:", leaked) for obj := range liveObjects { log.Warningf(obj.LeakMessage()) } } } }