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217 lines
7.3 KiB
C++
217 lines
7.3 KiB
C++
#pragma once
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#include <atomic>
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#include <common/types.h>
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#include <Common/CurrentMetrics.h>
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#include <Common/VariableContext.h>
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#if !defined(NDEBUG)
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#define MEMORY_TRACKER_DEBUG_CHECKS
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#endif
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/// DENY_ALLOCATIONS_IN_SCOPE macro makes MemoryTracker throw LOGICAL_ERROR on any allocation attempt
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/// until the end of the scope. It's useful to ensure that no allocations happen in signal handlers and
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/// outside of try/catch block of thread functions. ALLOW_ALLOCATIONS_IN_SCOPE cancels effect of
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/// DENY_ALLOCATIONS_IN_SCOPE in the inner scope. In Release builds these macros do nothing.
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#ifdef MEMORY_TRACKER_DEBUG_CHECKS
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#include <ext/scope_guard.h>
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extern thread_local bool _memory_tracker_always_throw_logical_error_on_allocation;
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#define ALLOCATIONS_IN_SCOPE_IMPL_CONCAT(n, val) \
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bool _allocations_flag_prev_val##n = _memory_tracker_always_throw_logical_error_on_allocation; \
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_memory_tracker_always_throw_logical_error_on_allocation = val; \
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SCOPE_EXIT({ _memory_tracker_always_throw_logical_error_on_allocation = _allocations_flag_prev_val##n; })
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#define ALLOCATIONS_IN_SCOPE_IMPL(n, val) ALLOCATIONS_IN_SCOPE_IMPL_CONCAT(n, val)
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#define DENY_ALLOCATIONS_IN_SCOPE ALLOCATIONS_IN_SCOPE_IMPL(__LINE__, true)
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#define ALLOW_ALLOCATIONS_IN_SCOPE ALLOCATIONS_IN_SCOPE_IMPL(__LINE__, false)
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#else
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#define DENY_ALLOCATIONS_IN_SCOPE static_assert(true)
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#define ALLOW_ALLOCATIONS_IN_SCOPE static_assert(true)
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#endif
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/** Tracks memory consumption.
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* It throws an exception if amount of consumed memory become greater than certain limit.
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* The same memory tracker could be simultaneously used in different threads.
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*/
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class MemoryTracker
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{
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private:
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std::atomic<Int64> amount {0};
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std::atomic<Int64> peak {0};
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std::atomic<Int64> hard_limit {0};
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std::atomic<Int64> profiler_limit {0};
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Int64 profiler_step = 0;
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/// To test exception safety of calling code, memory tracker throws an exception on each memory allocation with specified probability.
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double fault_probability = 0;
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/// To randomly sample allocations and deallocations in trace_log.
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double sample_probability = 0;
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/// Singly-linked list. All information will be passed to subsequent memory trackers also (it allows to implement trackers hierarchy).
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/// In terms of tree nodes it is the list of parents. Lifetime of these trackers should "include" lifetime of current tracker.
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std::atomic<MemoryTracker *> parent {};
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/// You could specify custom metric to track memory usage.
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std::atomic<CurrentMetrics::Metric> metric = CurrentMetrics::end();
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/// This description will be used as prefix into log messages (if isn't nullptr)
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std::atomic<const char *> description_ptr = nullptr;
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void updatePeak(Int64 will_be);
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void logMemoryUsage(Int64 current) const;
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public:
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MemoryTracker(VariableContext level_ = VariableContext::Thread);
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MemoryTracker(MemoryTracker * parent_, VariableContext level_ = VariableContext::Thread);
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~MemoryTracker();
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VariableContext level;
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/** Call the following functions before calling of corresponding operations with memory allocators.
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*/
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void alloc(Int64 size);
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void realloc(Int64 old_size, Int64 new_size)
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{
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Int64 addition = new_size - old_size;
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if (addition > 0)
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alloc(addition);
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else
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free(-addition);
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}
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/** This function should be called after memory deallocation.
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*/
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void free(Int64 size);
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Int64 get() const
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{
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return amount.load(std::memory_order_relaxed);
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}
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Int64 getPeak() const
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{
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return peak.load(std::memory_order_relaxed);
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}
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void setHardLimit(Int64 value);
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/** Set limit if it was not set.
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* Otherwise, set limit to new value, if new value is greater than previous limit.
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*/
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void setOrRaiseHardLimit(Int64 value);
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void setOrRaiseProfilerLimit(Int64 value);
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void setFaultProbability(double value)
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{
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fault_probability = value;
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}
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void setSampleProbability(double value)
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{
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sample_probability = value;
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}
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void setProfilerStep(Int64 value)
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{
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profiler_step = value;
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}
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/// next should be changed only once: from nullptr to some value.
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/// NOTE: It is not true in MergeListElement
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void setParent(MemoryTracker * elem)
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{
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parent.store(elem, std::memory_order_relaxed);
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}
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MemoryTracker * getParent()
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{
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return parent.load(std::memory_order_relaxed);
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}
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/// The memory consumption could be shown in realtime via CurrentMetrics counter
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void setMetric(CurrentMetrics::Metric metric_)
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{
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metric.store(metric_, std::memory_order_relaxed);
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}
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void setDescription(const char * description)
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{
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description_ptr.store(description, std::memory_order_relaxed);
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}
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/// Reset the accumulated data
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void resetCounters();
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/// Reset the accumulated data and the parent.
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void reset();
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/// Reset current counter to a new value.
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void set(Int64 to);
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/// Prints info about peak memory consumption into log.
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void logPeakMemoryUsage() const;
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/// To be able to temporarily stop memory tracking from current thread.
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struct BlockerInThread
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{
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private:
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BlockerInThread(const BlockerInThread &) = delete;
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BlockerInThread & operator=(const BlockerInThread &) = delete;
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static thread_local uint64_t counter;
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static thread_local VariableContext level;
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VariableContext previous_level;
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public:
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/// level_ - block in level and above
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BlockerInThread(VariableContext level_ = VariableContext::User);
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~BlockerInThread();
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static bool isBlocked(VariableContext current_level)
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{
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return counter > 0 && current_level >= level;
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}
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};
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/// To be able to avoid MEMORY_LIMIT_EXCEEDED Exception in destructors:
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/// - either configured memory limit reached
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/// - or fault injected
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///
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/// So this will simply ignore the configured memory limit (and avoid fault injection).
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///
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/// NOTE: exception will be silently ignored, no message in log
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/// (since logging from MemoryTracker::alloc() is tricky)
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///
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/// NOTE: MEMORY_LIMIT_EXCEEDED Exception implicitly blocked if
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/// stack unwinding is currently in progress in this thread (to avoid
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/// std::terminate()), so you don't need to use it in this case explicitly.
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struct LockExceptionInThread
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{
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private:
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LockExceptionInThread(const LockExceptionInThread &) = delete;
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LockExceptionInThread & operator=(const LockExceptionInThread &) = delete;
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static thread_local uint64_t counter;
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static thread_local VariableContext level;
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static thread_local bool block_fault_injections;
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VariableContext previous_level;
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bool previous_block_fault_injections;
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public:
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/// level_ - block in level and above
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/// block_fault_injections_ - block in fault injection too
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LockExceptionInThread(VariableContext level_ = VariableContext::User, bool block_fault_injections_ = true);
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~LockExceptionInThread();
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static bool isBlocked(VariableContext current_level, bool fault_injection)
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{
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return counter > 0 && current_level >= level && (!fault_injection || (fault_injection && block_fault_injections));
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}
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};
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};
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extern MemoryTracker total_memory_tracker;
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