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97f2a2213e
* Move some code outside dbms/src folder * Fix paths
265 lines
8.4 KiB
C++
265 lines
8.4 KiB
C++
#include "MemoryTracker.h"
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#include <IO/WriteHelpers.h>
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#include "Common/TraceCollector.h"
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#include <Common/CurrentThread.h>
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#include <Common/Exception.h>
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#include <Common/formatReadable.h>
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#include <common/logger_useful.h>
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#include <atomic>
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#include <cmath>
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#include <cstdlib>
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namespace DB
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{
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namespace ErrorCodes
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{
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extern const int MEMORY_LIMIT_EXCEEDED;
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}
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}
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static constexpr size_t log_peak_memory_usage_every = 1ULL << 30;
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/// Each thread could new/delete memory in range of (-untracked_memory_limit, untracked_memory_limit) without access to common counters.
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static constexpr Int64 untracked_memory_limit = 4 * 1024 * 1024;
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MemoryTracker::~MemoryTracker()
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{
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if (static_cast<int>(level) < static_cast<int>(VariableContext::Process) && peak)
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{
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try
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{
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logPeakMemoryUsage();
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}
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catch (...)
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{
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/// Exception in Logger, intentionally swallow.
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}
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}
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/** This is needed for next memory tracker to be consistent with sum of all referring memory trackers.
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*
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* Sometimes, memory tracker could be destroyed before memory was freed, and on destruction, amount > 0.
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* For example, a query could allocate some data and leave it in cache.
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*
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* If memory will be freed outside of context of this memory tracker,
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* but in context of one of the 'next' memory trackers,
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* then memory usage of 'next' memory trackers will be underestimated,
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* because amount will be decreased twice (first - here, second - when real 'free' happens).
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*/
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if (auto value = amount.load(std::memory_order_relaxed))
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free(value);
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}
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void MemoryTracker::logPeakMemoryUsage() const
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{
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LOG_DEBUG(&Logger::get("MemoryTracker"),
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"Peak memory usage" << (description ? " " + std::string(description) : "")
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<< ": " << formatReadableSizeWithBinarySuffix(peak) << ".");
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}
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static void logMemoryUsage(Int64 amount)
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{
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LOG_DEBUG(&Logger::get("MemoryTracker"),
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"Current memory usage: " << formatReadableSizeWithBinarySuffix(amount) << ".");
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}
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void MemoryTracker::alloc(Int64 size)
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{
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if (blocker.isCancelled())
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return;
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/** Using memory_order_relaxed means that if allocations are done simultaneously,
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* we allow exception about memory limit exceeded to be thrown only on next allocation.
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* So, we allow over-allocations.
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*/
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Int64 will_be = size + amount.fetch_add(size, std::memory_order_relaxed);
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if (metric != CurrentMetrics::end())
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CurrentMetrics::add(metric, size);
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Int64 current_hard_limit = hard_limit.load(std::memory_order_relaxed);
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Int64 current_profiler_limit = profiler_limit.load(std::memory_order_relaxed);
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/// Using non-thread-safe random number generator. Joint distribution in different threads would not be uniform.
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/// In this case, it doesn't matter.
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if (unlikely(fault_probability && drand48() < fault_probability))
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{
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free(size);
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/// Prevent recursion. Exception::ctor -> std::string -> new[] -> MemoryTracker::alloc
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auto untrack_lock = blocker.cancel(); // NOLINT
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std::stringstream message;
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message << "Memory tracker";
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if (description)
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message << " " << description;
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message << ": fault injected. Would use " << formatReadableSizeWithBinarySuffix(will_be)
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<< " (attempt to allocate chunk of " << size << " bytes)"
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<< ", maximum: " << formatReadableSizeWithBinarySuffix(current_hard_limit);
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throw DB::Exception(message.str(), DB::ErrorCodes::MEMORY_LIMIT_EXCEEDED);
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}
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if (unlikely(current_profiler_limit && will_be > current_profiler_limit))
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{
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auto no_track = blocker.cancel();
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DB::TraceCollector::collect(DB::TraceType::Memory, StackTrace(), size);
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setOrRaiseProfilerLimit((will_be + profiler_step - 1) / profiler_step * profiler_step);
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}
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if (unlikely(current_hard_limit && will_be > current_hard_limit))
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{
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free(size);
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/// Prevent recursion. Exception::ctor -> std::string -> new[] -> MemoryTracker::alloc
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auto untrack_lock = blocker.cancel(); // NOLINT
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std::stringstream message;
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message << "Memory limit";
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if (description)
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message << " " << description;
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message << " exceeded: would use " << formatReadableSizeWithBinarySuffix(will_be)
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<< " (attempt to allocate chunk of " << size << " bytes)"
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<< ", maximum: " << formatReadableSizeWithBinarySuffix(current_hard_limit);
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throw DB::Exception(message.str(), DB::ErrorCodes::MEMORY_LIMIT_EXCEEDED);
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}
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auto peak_old = peak.load(std::memory_order_relaxed);
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if (will_be > peak_old) /// Races doesn't matter. Could rewrite with CAS, but not worth.
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{
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peak.store(will_be, std::memory_order_relaxed);
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if (level == VariableContext::Process && will_be / log_peak_memory_usage_every > peak_old / log_peak_memory_usage_every)
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logMemoryUsage(will_be);
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}
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if (auto loaded_next = parent.load(std::memory_order_relaxed))
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loaded_next->alloc(size);
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}
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void MemoryTracker::free(Int64 size)
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{
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if (blocker.isCancelled())
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return;
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if (level == VariableContext::Thread)
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{
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/// Could become negative if memory allocated in this thread is freed in another one
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amount.fetch_sub(size, std::memory_order_relaxed);
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}
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else
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{
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Int64 new_amount = amount.fetch_sub(size, std::memory_order_relaxed) - size;
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/** Sometimes, query could free some data, that was allocated outside of query context.
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* Example: cache eviction.
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* To avoid negative memory usage, we "saturate" amount.
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* Memory usage will be calculated with some error.
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* NOTE: The code is not atomic. Not worth to fix.
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*/
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if (unlikely(new_amount < 0))
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{
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amount.fetch_sub(new_amount);
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size += new_amount;
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}
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}
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if (auto loaded_next = parent.load(std::memory_order_relaxed))
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loaded_next->free(size);
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if (metric != CurrentMetrics::end())
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CurrentMetrics::sub(metric, size);
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}
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void MemoryTracker::resetCounters()
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{
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amount.store(0, std::memory_order_relaxed);
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peak.store(0, std::memory_order_relaxed);
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hard_limit.store(0, std::memory_order_relaxed);
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profiler_limit.store(0, std::memory_order_relaxed);
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}
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void MemoryTracker::reset()
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{
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if (metric != CurrentMetrics::end())
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CurrentMetrics::sub(metric, amount.load(std::memory_order_relaxed));
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resetCounters();
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}
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void MemoryTracker::setOrRaiseHardLimit(Int64 value)
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{
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/// This is just atomic set to maximum.
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Int64 old_value = hard_limit.load(std::memory_order_relaxed);
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while (old_value < value && !hard_limit.compare_exchange_weak(old_value, value))
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;
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}
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void MemoryTracker::setOrRaiseProfilerLimit(Int64 value)
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{
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Int64 old_value = profiler_limit.load(std::memory_order_relaxed);
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while (old_value < value && !profiler_limit.compare_exchange_weak(old_value, value))
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;
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}
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namespace CurrentMemoryTracker
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{
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void alloc(Int64 size)
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{
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if (auto memory_tracker = DB::CurrentThread::getMemoryTracker())
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{
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Int64 & untracked = DB::CurrentThread::getUntrackedMemory();
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untracked += size;
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if (untracked > untracked_memory_limit)
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{
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/// Zero untracked before track. If tracker throws out-of-limit we would be able to alloc up to untracked_memory_limit bytes
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/// more. It could be useful to enlarge Exception message in rethrow logic.
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Int64 tmp = untracked;
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untracked = 0;
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memory_tracker->alloc(tmp);
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}
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}
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}
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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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addition > 0 ? alloc(addition) : free(-addition);
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}
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void free(Int64 size)
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{
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if (auto memory_tracker = DB::CurrentThread::getMemoryTracker())
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{
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Int64 & untracked = DB::CurrentThread::getUntrackedMemory();
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untracked -= size;
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if (untracked < -untracked_memory_limit)
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{
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memory_tracker->free(-untracked);
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untracked = 0;
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}
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}
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}
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}
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DB::SimpleActionLock getCurrentMemoryTrackerActionLock()
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{
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auto memory_tracker = DB::CurrentThread::getMemoryTracker();
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if (!memory_tracker)
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return {};
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return memory_tracker->blocker.cancel();
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}
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