package client import ( "container/heap" "fmt" "sync" "time" hclog "github.com/hashicorp/go-hclog" "github.com/hashicorp/nomad/client/stats" "github.com/hashicorp/nomad/nomad/structs" ) const ( // MB is a constant which converts values in bytes to MB MB = 1024 * 1024 ) // GCConfig allows changing the behaviour of the garbage collector type GCConfig struct { // MaxAllocs is the maximum number of allocations to track before a GC // is triggered. MaxAllocs int DiskUsageThreshold float64 InodeUsageThreshold float64 Interval time.Duration ReservedDiskMB int ParallelDestroys int } // AllocCounter is used by AllocGarbageCollector to discover how many un-GC'd // allocations a client has and is generally fulfilled by the Client. type AllocCounter interface { NumAllocs() int } // AllocGarbageCollector garbage collects terminated allocations on a node type AllocGarbageCollector struct { config *GCConfig // allocRunners marked for GC allocRunners *IndexedGCAllocPQ // statsCollector for node based thresholds (eg disk) statsCollector stats.NodeStatsCollector // allocCounter return the number of un-GC'd allocs on this node allocCounter AllocCounter // destroyCh is a semaphore for rate limiting concurrent garbage // collections destroyCh chan struct{} // shutdownCh is closed when the GC's run method should exit shutdownCh chan struct{} // triggerCh is ticked by the Trigger method to cause a GC triggerCh chan struct{} logger hclog.Logger } // NewAllocGarbageCollector returns a garbage collector for terminated // allocations on a node. Must call Run() in a goroutine enable periodic // garbage collection. func NewAllocGarbageCollector(logger hclog.Logger, statsCollector stats.NodeStatsCollector, ac AllocCounter, config *GCConfig) *AllocGarbageCollector { logger = logger.Named("gc") // Require at least 1 to make progress if config.ParallelDestroys <= 0 { logger.Warn("garbage collector defaulting parallelism to 1 due to invalid input value", "gc_parallel_destroys", config.ParallelDestroys) config.ParallelDestroys = 1 } gc := &AllocGarbageCollector{ allocRunners: NewIndexedGCAllocPQ(), statsCollector: statsCollector, allocCounter: ac, config: config, logger: logger, destroyCh: make(chan struct{}, config.ParallelDestroys), shutdownCh: make(chan struct{}), triggerCh: make(chan struct{}, 1), } return gc } // Run the periodic garbage collector. func (a *AllocGarbageCollector) Run() { ticker := time.NewTicker(a.config.Interval) for { select { case <-a.triggerCh: case <-ticker.C: case <-a.shutdownCh: ticker.Stop() return } if err := a.keepUsageBelowThreshold(); err != nil { a.logger.Error("error garbage collecting allocations", "error", err) } } } // Force the garbage collector to run. func (a *AllocGarbageCollector) Trigger() { select { case a.triggerCh <- struct{}{}: default: // already triggered } } // keepUsageBelowThreshold collects disk usage information and garbage collects // allocations to make disk space available. func (a *AllocGarbageCollector) keepUsageBelowThreshold() error { for { select { case <-a.shutdownCh: return nil default: } // Check if we have enough free space if err := a.statsCollector.Collect(); err != nil { return err } // See if we are below thresholds for used disk space and inode usage diskStats := a.statsCollector.Stats().AllocDirStats reason := "" logf := a.logger.Warn liveAllocs := a.allocCounter.NumAllocs() switch { case diskStats.UsedPercent > a.config.DiskUsageThreshold: reason = fmt.Sprintf("disk usage of %.0f is over gc threshold of %.0f", diskStats.UsedPercent, a.config.DiskUsageThreshold) case diskStats.InodesUsedPercent > a.config.InodeUsageThreshold: reason = fmt.Sprintf("inode usage of %.0f is over gc threshold of %.0f", diskStats.InodesUsedPercent, a.config.InodeUsageThreshold) case liveAllocs > a.config.MaxAllocs: // if we're unable to gc, don't WARN until at least 2x over limit if liveAllocs < (a.config.MaxAllocs * 2) { logf = a.logger.Info } reason = fmt.Sprintf("number of allocations (%d) is over the limit (%d)", liveAllocs, a.config.MaxAllocs) } if reason == "" { // No reason to gc, exit break } // Collect an allocation gcAlloc := a.allocRunners.Pop() if gcAlloc == nil { logf("garbage collection skipped because no terminal allocations", "reason", reason) break } // Destroy the alloc runner and wait until it exits a.destroyAllocRunner(gcAlloc.allocID, gcAlloc.allocRunner, reason) } return nil } // destroyAllocRunner is used to destroy an allocation runner. It will acquire a // lock to restrict parallelism and then destroy the alloc runner, returning // once the allocation has been destroyed. func (a *AllocGarbageCollector) destroyAllocRunner(allocID string, ar AllocRunner, reason string) { a.logger.Info("garbage collecting allocation", "alloc_id", allocID, "reason", reason) // Acquire the destroy lock select { case <-a.shutdownCh: return case a.destroyCh <- struct{}{}: } ar.Destroy() select { case <-ar.DestroyCh(): case <-a.shutdownCh: } a.logger.Debug("garbage collected %s", "alloc_id", allocID) // Release the lock <-a.destroyCh } func (a *AllocGarbageCollector) Stop() { close(a.shutdownCh) } // Collect garbage collects a single allocation on a node. Returns true if // alloc was found and garbage collected; otherwise false. func (a *AllocGarbageCollector) Collect(allocID string) bool { gcAlloc := a.allocRunners.Remove(allocID) if gcAlloc == nil { a.logger.Debug("alloc was already garbage collected", "alloc_id", allocID) return false } a.destroyAllocRunner(allocID, gcAlloc.allocRunner, "forced collection") return true } // CollectAll garbage collects all terminated allocations on a node func (a *AllocGarbageCollector) CollectAll() { for { select { case <-a.shutdownCh: return default: } gcAlloc := a.allocRunners.Pop() if gcAlloc == nil { return } go a.destroyAllocRunner(gcAlloc.allocID, gcAlloc.allocRunner, "forced full node collection") } } // MakeRoomFor garbage collects enough number of allocations in the terminal // state to make room for new allocations func (a *AllocGarbageCollector) MakeRoomFor(allocations []*structs.Allocation) error { if len(allocations) == 0 { // Nothing to make room for! return nil } // GC allocs until below the max limit + the new allocations max := a.config.MaxAllocs - len(allocations) for a.allocCounter.NumAllocs() > max { select { case <-a.shutdownCh: return nil default: } gcAlloc := a.allocRunners.Pop() if gcAlloc == nil { // It's fine if we can't lower below the limit here as // we'll keep trying to drop below the limit with each // periodic gc break } // Destroy the alloc runner and wait until it exits a.destroyAllocRunner(gcAlloc.allocID, gcAlloc.allocRunner, fmt.Sprintf("new allocations and over max (%d)", a.config.MaxAllocs)) } totalResource := &structs.AllocatedSharedResources{} for _, alloc := range allocations { // COMPAT(0.11): Remove in 0.11 if alloc.AllocatedResources != nil { totalResource.Add(&alloc.AllocatedResources.Shared) } else { totalResource.DiskMB += int64(alloc.Resources.DiskMB) } } // If the host has enough free space to accommodate the new allocations then // we don't need to garbage collect terminated allocations if hostStats := a.statsCollector.Stats(); hostStats != nil { var availableForAllocations uint64 if hostStats.AllocDirStats.Available < uint64(a.config.ReservedDiskMB*MB) { availableForAllocations = 0 } else { availableForAllocations = hostStats.AllocDirStats.Available - uint64(a.config.ReservedDiskMB*MB) } if uint64(totalResource.DiskMB*MB) < availableForAllocations { return nil } } var diskCleared int64 for { select { case <-a.shutdownCh: return nil default: } // Collect host stats and see if we still need to remove older // allocations var allocDirStats *stats.DiskStats if err := a.statsCollector.Collect(); err == nil { if hostStats := a.statsCollector.Stats(); hostStats != nil { allocDirStats = hostStats.AllocDirStats } } if allocDirStats != nil { if allocDirStats.Available >= uint64(totalResource.DiskMB*MB) { break } } else { // Falling back to a simpler model to know if we have enough disk // space if stats collection fails if diskCleared >= totalResource.DiskMB { break } } gcAlloc := a.allocRunners.Pop() if gcAlloc == nil { break } ar := gcAlloc.allocRunner alloc := ar.Alloc() // COMPAT(0.11): Remove in 0.11 var allocDiskMB int64 if alloc.AllocatedResources != nil { allocDiskMB = alloc.AllocatedResources.Shared.DiskMB } else { allocDiskMB = int64(alloc.Resources.DiskMB) } // Destroy the alloc runner and wait until it exits a.destroyAllocRunner(gcAlloc.allocID, ar, fmt.Sprintf("freeing %d MB for new allocations", allocDiskMB)) diskCleared += allocDiskMB } return nil } // MarkForCollection starts tracking an allocation for Garbage Collection func (a *AllocGarbageCollector) MarkForCollection(allocID string, ar AllocRunner) { if a.allocRunners.Push(allocID, ar) { a.logger.Info("marking allocation for GC", "alloc_id", allocID) } } // GCAlloc wraps an allocation runner and an index enabling it to be used within // a PQ type GCAlloc struct { timeStamp time.Time allocID string allocRunner AllocRunner index int } type GCAllocPQImpl []*GCAlloc func (pq GCAllocPQImpl) Len() int { return len(pq) } func (pq GCAllocPQImpl) Less(i, j int) bool { return pq[i].timeStamp.Before(pq[j].timeStamp) } func (pq GCAllocPQImpl) Swap(i, j int) { pq[i], pq[j] = pq[j], pq[i] pq[i].index = i pq[j].index = j } func (pq *GCAllocPQImpl) Push(x interface{}) { n := len(*pq) item := x.(*GCAlloc) item.index = n *pq = append(*pq, item) } func (pq *GCAllocPQImpl) Pop() interface{} { old := *pq n := len(old) item := old[n-1] item.index = -1 // for safety *pq = old[0 : n-1] return item } // IndexedGCAllocPQ is an indexed PQ which maintains a list of allocation runner // based on their termination time. type IndexedGCAllocPQ struct { index map[string]*GCAlloc heap GCAllocPQImpl pqLock sync.Mutex } func NewIndexedGCAllocPQ() *IndexedGCAllocPQ { return &IndexedGCAllocPQ{ index: make(map[string]*GCAlloc), heap: make(GCAllocPQImpl, 0), } } // Push an alloc runner into the GC queue. Returns true if alloc was added, // false if the alloc already existed. func (i *IndexedGCAllocPQ) Push(allocID string, ar AllocRunner) bool { i.pqLock.Lock() defer i.pqLock.Unlock() if _, ok := i.index[allocID]; ok { // No work to do return false } gcAlloc := &GCAlloc{ timeStamp: time.Now(), allocID: allocID, allocRunner: ar, } i.index[allocID] = gcAlloc heap.Push(&i.heap, gcAlloc) return true } func (i *IndexedGCAllocPQ) Pop() *GCAlloc { i.pqLock.Lock() defer i.pqLock.Unlock() if len(i.heap) == 0 { return nil } gcAlloc := heap.Pop(&i.heap).(*GCAlloc) delete(i.index, gcAlloc.allocRunner.Alloc().ID) return gcAlloc } // Remove alloc from GC. Returns nil if alloc doesn't exist. func (i *IndexedGCAllocPQ) Remove(allocID string) *GCAlloc { i.pqLock.Lock() defer i.pqLock.Unlock() if gcAlloc, ok := i.index[allocID]; ok { heap.Remove(&i.heap, gcAlloc.index) delete(i.index, allocID) return gcAlloc } return nil } func (i *IndexedGCAllocPQ) Length() int { i.pqLock.Lock() defer i.pqLock.Unlock() return len(i.heap) }