lib/asan/asan_stats.cc - platform/external/compiler-rt - Gitiles

 //===-- asan_stats.cc -----------------------------------------------------===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This file is a part of AddressSanitizer, an address sanity checker.
 //
 // Code related to statistics collected by AddressSanitizer.
 //===----------------------------------------------------------------------===//
 #include "asan_interceptors.h"
 #include "asan_internal.h"
 #include "asan_stats.h"
 #include "asan_thread.h"
 #include "sanitizer_common/sanitizer_mutex.h"
 #include "sanitizer_common/sanitizer_stackdepot.h"

 namespace __asan {

 AsanStats::AsanStats() {
   Clear();
 }

 void AsanStats::Clear() {
   CHECK(REAL(memset));
   REAL(memset)(this, 0, sizeof(AsanStats));
 }

 static void PrintMallocStatsArray(const char *prefix,
                                   uptr (&array)[kNumberOfSizeClasses]) {
   Printf("%s", prefix);
   for (uptr i = 0; i < kNumberOfSizeClasses; i++) {
     if (!array[i]) continue;
     Printf("%zu:%zu; ", i, array[i]);
   }
   Printf("\n");
 }

 void AsanStats::Print() {
   Printf("Stats: %zuM malloced (%zuM for red zones) by %zu calls\n",
              malloced>>20, malloced_redzones>>20, mallocs);
   Printf("Stats: %zuM realloced by %zu calls\n", realloced>>20, reallocs);
   Printf("Stats: %zuM freed by %zu calls\n", freed>>20, frees);
   Printf("Stats: %zuM really freed by %zu calls\n",
              really_freed>>20, real_frees);
   Printf("Stats: %zuM (%zuM-%zuM) mmaped; %zu maps, %zu unmaps\n",
              (mmaped-munmaped)>>20, mmaped>>20, munmaped>>20,
              mmaps, munmaps);

   PrintMallocStatsArray("  mmaps   by size class: ", mmaped_by_size);
   PrintMallocStatsArray("  mallocs by size class: ", malloced_by_size);
   PrintMallocStatsArray("  frees   by size class: ", freed_by_size);
   PrintMallocStatsArray("  rfrees  by size class: ", really_freed_by_size);
   Printf("Stats: malloc large: %zu small slow: %zu\n",
              malloc_large, malloc_small_slow);
 }

 void AsanStats::MergeFrom(const AsanStats *stats) {
   uptr *dst_ptr = reinterpret_cast<uptr*>(this);
   const uptr *src_ptr = reinterpret_cast<const uptr*>(stats);
   uptr num_fields = sizeof(*this) / sizeof(uptr);
   for (uptr i = 0; i < num_fields; i++)
     dst_ptr[i] += src_ptr[i];
 }

 static BlockingMutex print_lock(LINKER_INITIALIZED);

 static AsanStats unknown_thread_stats(LINKER_INITIALIZED);
 static AsanStats dead_threads_stats(LINKER_INITIALIZED);
 static BlockingMutex dead_threads_stats_lock(LINKER_INITIALIZED);
 // Required for malloc_zone_statistics() on OS X. This can't be stored in
 // per-thread AsanStats.
 static uptr max_malloced_memory;

 static void MergeThreadStats(ThreadContextBase *tctx_base, void *arg) {
   AsanStats *accumulated_stats = reinterpret_cast<AsanStats*>(arg);
   AsanThreadContext *tctx = static_cast<AsanThreadContext*>(tctx_base);
   if (AsanThread *t = tctx->thread)
     accumulated_stats->MergeFrom(&t->stats());
 }

 static void GetAccumulatedStats(AsanStats *stats) {
   stats->Clear();
   {
     ThreadRegistryLock l(&asanThreadRegistry());
     asanThreadRegistry()
         .RunCallbackForEachThreadLocked(MergeThreadStats, stats);
   }
   stats->MergeFrom(&unknown_thread_stats);
   {
     BlockingMutexLock lock(&dead_threads_stats_lock);
     stats->MergeFrom(&dead_threads_stats);
   }
   // This is not very accurate: we may miss allocation peaks that happen
   // between two updates of accumulated_stats_. For more accurate bookkeeping
   // the maximum should be updated on every malloc(), which is unacceptable.
   if (max_malloced_memory < stats->malloced) {
     max_malloced_memory = stats->malloced;
   }
 }

 void FlushToDeadThreadStats(AsanStats *stats) {
   BlockingMutexLock lock(&dead_threads_stats_lock);
   dead_threads_stats.MergeFrom(stats);
   stats->Clear();
 }

 void FillMallocStatistics(AsanMallocStats *malloc_stats) {
   AsanStats stats;
   GetAccumulatedStats(&stats);
   malloc_stats->blocks_in_use = stats.mallocs;
   malloc_stats->size_in_use = stats.malloced;
   malloc_stats->max_size_in_use = max_malloced_memory;
   malloc_stats->size_allocated = stats.mmaped;
 }

 AsanStats &GetCurrentThreadStats() {
   AsanThread *t = GetCurrentThread();
   return (t) ? t->stats() : unknown_thread_stats;
 }

 static void PrintAccumulatedStats() {
   AsanStats stats;
   GetAccumulatedStats(&stats);
   // Use lock to keep reports from mixing up.
   BlockingMutexLock lock(&print_lock);
   stats.Print();
   StackDepotStats *stack_depot_stats = StackDepotGetStats();
   Printf("Stats: StackDepot: %zd ids; %zdM mapped\n",
          stack_depot_stats->n_uniq_ids, stack_depot_stats->mapped >> 20);
   PrintInternalAllocatorStats();
 }

 }  // namespace __asan

 // ---------------------- Interface ---------------- {{{1
 using namespace __asan;  // NOLINT

 uptr __asan_get_current_allocated_bytes() {
   AsanStats stats;
   GetAccumulatedStats(&stats);
   uptr malloced = stats.malloced;
   uptr freed = stats.freed;
   // Return sane value if malloced < freed due to racy
   // way we update accumulated stats.
   return (malloced > freed) ? malloced - freed : 1;
 }

 uptr __asan_get_heap_size() {
   AsanStats stats;
   GetAccumulatedStats(&stats);
   return stats.mmaped - stats.munmaped;
 }

 uptr __asan_get_free_bytes() {
   AsanStats stats;
   GetAccumulatedStats(&stats);
   uptr total_free = stats.mmaped
                   - stats.munmaped
                   + stats.really_freed
                   + stats.really_freed_redzones;
   uptr total_used = stats.malloced
                   + stats.malloced_redzones;
   // Return sane value if total_free < total_used due to racy
   // way we update accumulated stats.
   return (total_free > total_used) ? total_free - total_used : 1;
 }

 uptr __asan_get_unmapped_bytes() {
   return 0;
 }

 void __asan_print_accumulated_stats() {
   PrintAccumulatedStats();
 }
	//===-- asan_stats.cc -----------------------------------------------------===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This file is a part of AddressSanitizer, an address sanity checker.
	//
	// Code related to statistics collected by AddressSanitizer.
	//===----------------------------------------------------------------------===//
	#include "asan_interceptors.h"
	#include "asan_internal.h"
	#include "asan_stats.h"
	#include "asan_thread.h"
	#include "sanitizer_common/sanitizer_mutex.h"
	#include "sanitizer_common/sanitizer_stackdepot.h"

	namespace __asan {

	AsanStats::AsanStats() {
	Clear();
	}

	void AsanStats::Clear() {
	CHECK(REAL(memset));
	REAL(memset)(this, 0, sizeof(AsanStats));
	}

	static void PrintMallocStatsArray(const char *prefix,
	uptr (&array)[kNumberOfSizeClasses]) {
	Printf("%s", prefix);
	for (uptr i = 0; i < kNumberOfSizeClasses; i++) {
	if (!array[i]) continue;
	Printf("%zu:%zu; ", i, array[i]);
	}
	Printf("\n");
	}

	void AsanStats::Print() {
	Printf("Stats: %zuM malloced (%zuM for red zones) by %zu calls\n",
	malloced>>20, malloced_redzones>>20, mallocs);
	Printf("Stats: %zuM realloced by %zu calls\n", realloced>>20, reallocs);
	Printf("Stats: %zuM freed by %zu calls\n", freed>>20, frees);
	Printf("Stats: %zuM really freed by %zu calls\n",
	really_freed>>20, real_frees);
	Printf("Stats: %zuM (%zuM-%zuM) mmaped; %zu maps, %zu unmaps\n",
	(mmaped-munmaped)>>20, mmaped>>20, munmaped>>20,
	mmaps, munmaps);

	PrintMallocStatsArray(" mmaps by size class: ", mmaped_by_size);
	PrintMallocStatsArray(" mallocs by size class: ", malloced_by_size);
	PrintMallocStatsArray(" frees by size class: ", freed_by_size);
	PrintMallocStatsArray(" rfrees by size class: ", really_freed_by_size);
	Printf("Stats: malloc large: %zu small slow: %zu\n",
	malloc_large, malloc_small_slow);
	}

	void AsanStats::MergeFrom(const AsanStats *stats) {
	uptr dst_ptr = reinterpret_cast<uptr>(this);
	const uptr src_ptr = reinterpret_cast<const uptr>(stats);
	uptr num_fields = sizeof(*this) / sizeof(uptr);
	for (uptr i = 0; i < num_fields; i++)
	dst_ptr[i] += src_ptr[i];
	}

	static BlockingMutex print_lock(LINKER_INITIALIZED);

	static AsanStats unknown_thread_stats(LINKER_INITIALIZED);
	static AsanStats dead_threads_stats(LINKER_INITIALIZED);
	static BlockingMutex dead_threads_stats_lock(LINKER_INITIALIZED);
	// Required for malloc_zone_statistics() on OS X. This can't be stored in
	// per-thread AsanStats.
	static uptr max_malloced_memory;

	static void MergeThreadStats(ThreadContextBase tctx_base, void arg) {
	AsanStats accumulated_stats = reinterpret_cast<AsanStats>(arg);
	AsanThreadContext tctx = static_cast<AsanThreadContext>(tctx_base);
	if (AsanThread *t = tctx->thread)
	accumulated_stats->MergeFrom(&t->stats());
	}

	static void GetAccumulatedStats(AsanStats *stats) {
	stats->Clear();
	{
	ThreadRegistryLock l(&asanThreadRegistry());
	asanThreadRegistry()
	.RunCallbackForEachThreadLocked(MergeThreadStats, stats);
	}
	stats->MergeFrom(&unknown_thread_stats);
	{
	BlockingMutexLock lock(&dead_threads_stats_lock);
	stats->MergeFrom(&dead_threads_stats);
	}
	// This is not very accurate: we may miss allocation peaks that happen
	// between two updates of accumulated_stats_. For more accurate bookkeeping
	// the maximum should be updated on every malloc(), which is unacceptable.
	if (max_malloced_memory < stats->malloced) {
	max_malloced_memory = stats->malloced;
	}
	}

	void FlushToDeadThreadStats(AsanStats *stats) {
	BlockingMutexLock lock(&dead_threads_stats_lock);
	dead_threads_stats.MergeFrom(stats);
	stats->Clear();
	}

	void FillMallocStatistics(AsanMallocStats *malloc_stats) {
	AsanStats stats;
	GetAccumulatedStats(&stats);
	malloc_stats->blocks_in_use = stats.mallocs;
	malloc_stats->size_in_use = stats.malloced;
	malloc_stats->max_size_in_use = max_malloced_memory;
	malloc_stats->size_allocated = stats.mmaped;
	}

	AsanStats &GetCurrentThreadStats() {
	AsanThread *t = GetCurrentThread();
	return (t) ? t->stats() : unknown_thread_stats;
	}

	static void PrintAccumulatedStats() {
	AsanStats stats;
	GetAccumulatedStats(&stats);
	// Use lock to keep reports from mixing up.
	BlockingMutexLock lock(&print_lock);
	stats.Print();
	StackDepotStats *stack_depot_stats = StackDepotGetStats();
	Printf("Stats: StackDepot: %zd ids; %zdM mapped\n",
	stack_depot_stats->n_uniq_ids, stack_depot_stats->mapped >> 20);
	PrintInternalAllocatorStats();
	}

	} // namespace __asan

	// ---------------------- Interface ---------------- {{{1
	using namespace __asan; // NOLINT

	uptr __asan_get_current_allocated_bytes() {
	AsanStats stats;
	GetAccumulatedStats(&stats);
	uptr malloced = stats.malloced;
	uptr freed = stats.freed;
	// Return sane value if malloced < freed due to racy
	// way we update accumulated stats.
	return (malloced > freed) ? malloced - freed : 1;
	}

	uptr __asan_get_heap_size() {
	AsanStats stats;
	GetAccumulatedStats(&stats);
	return stats.mmaped - stats.munmaped;
	}

	uptr __asan_get_free_bytes() {
	AsanStats stats;
	GetAccumulatedStats(&stats);
	uptr total_free = stats.mmaped
	- stats.munmaped
	+ stats.really_freed
	+ stats.really_freed_redzones;
	uptr total_used = stats.malloced
	+ stats.malloced_redzones;
	// Return sane value if total_free < total_used due to racy
	// way we update accumulated stats.
	return (total_free > total_used) ? total_free - total_used : 1;
	}

	uptr __asan_get_unmapped_bytes() {
	return 0;
	}

	void __asan_print_accumulated_stats() {
	PrintAccumulatedStats();
	}