#pragma once #include #include #include #include #include /** Tracks memory consumption. * It throws an exception if amount of consumed memory become greater than certain limit. * The same memory tracker could be simultaneously used in different threads. */ class MemoryTracker { std::atomic amount {0}; std::atomic peak {0}; std::atomic limit {0}; /// To test exception safety of calling code, memory tracker throws an exception on each memory allocation with specified probability. double fault_probability = 0; /// Singly-linked list. All information will be passed to subsequent memory trackers also (it allows to implement trackers hierarchy). /// In terms of tree nodes it is the list of parents. Lifetime of these trackers should "include" lifetime of current tracker. std::atomic parent {}; /// You could specify custom metric to track memory usage. CurrentMetrics::Metric metric = CurrentMetrics::end(); /// This description will be used as prefix into log messages (if isn't nullptr) const char * description = nullptr; public: MemoryTracker(VariableContext level = VariableContext::Thread) : level(level) {} MemoryTracker(Int64 limit_, VariableContext level = VariableContext::Thread) : limit(limit_), level(level) {} MemoryTracker(MemoryTracker * parent_, VariableContext level = VariableContext::Thread) : parent(parent_), level(level) {} ~MemoryTracker(); VariableContext level; /** Call the following functions before calling of corresponding operations with memory allocators. */ void alloc(Int64 size); void realloc(Int64 old_size, Int64 new_size) { alloc(new_size - old_size); } /** This function should be called after memory deallocation. */ void free(Int64 size); Int64 get() const { return amount.load(std::memory_order_relaxed); } Int64 getPeak() const { return peak.load(std::memory_order_relaxed); } void setLimit(Int64 limit_) { limit.store(limit_, std::memory_order_relaxed); } /** Set limit if it was not set. * Otherwise, set limit to new value, if new value is greater than previous limit. */ void setOrRaiseLimit(Int64 value); void setFaultProbability(double value) { fault_probability = value; } /// next should be changed only once: from nullptr to some value. /// NOTE: It is not true in MergeListElement void setParent(MemoryTracker * elem) { parent.store(elem, std::memory_order_relaxed); } MemoryTracker * getParent() { return parent.load(std::memory_order_relaxed); } /// The memory consumption could be shown in realtime via CurrentMetrics counter void setMetric(CurrentMetrics::Metric metric_) { metric = metric_; } void setDescription(const char * description_) { description = description_; } /// Reset the accumulated data void resetCounters(); /// Reset the accumulated data and the parent. void reset(); /// Prints info about peak memory consumption into log. void logPeakMemoryUsage() const; /// To be able to temporarily stop memory tracker DB::SimpleActionBlocker blocker; }; /// Convenience methods, that use current thread's memory_tracker if it is available. namespace CurrentMemoryTracker { void alloc(Int64 size); void realloc(Int64 old_size, Int64 new_size); void free(Int64 size); } DB::SimpleActionLock getCurrentMemoryTrackerActionLock();