lib/lsan/lsan_common.h - platform/external/compiler-rt - Gitiles

 //=-- lsan_common.h -------------------------------------------------------===//
 //
 //                     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 LeakSanitizer.
 // Private LSan header.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LSAN_COMMON_H
 #define LSAN_COMMON_H

 #include "sanitizer_common/sanitizer_common.h"
 #include "sanitizer_common/sanitizer_internal_defs.h"
 #include "sanitizer_common/sanitizer_platform.h"
 #include "sanitizer_common/sanitizer_symbolizer.h"

 #if SANITIZER_LINUX && defined(__x86_64__)
 #define CAN_SANITIZE_LEAKS 1
 #else
 #define CAN_SANITIZE_LEAKS 0
 #endif

 namespace __lsan {

 // Chunk tags.
 enum ChunkTag {
   kDirectlyLeaked = 0,  // default
   kIndirectlyLeaked = 1,
   kReachable = 2
 };

 struct Flags {
   uptr pointer_alignment() const {
     return use_unaligned ? 1 : sizeof(uptr);
   }

   // Print addresses of leaked blocks after main leak report.
   bool report_blocks;
   // Aggregate two blocks into one leak if this many stack frames match. If
   // zero, the entire stack trace must match.
   int resolution;
   // The number of leaks reported.
   int max_leaks;
   // If nonzero kill the process with this exit code upon finding leaks.
   int exitcode;

   // Flags controlling the root set of reachable memory.
   // Global variables (.data and .bss).
   bool use_globals;
   // Thread stacks.
   bool use_stacks;
   // Thread registers.
   bool use_registers;
   // TLS and thread-specific storage.
   bool use_tls;

   // Consider unaligned pointers valid.
   bool use_unaligned;

   // Debug logging.
   bool log_pointers;
   bool log_threads;
 };

 extern Flags lsan_flags;
 inline Flags *flags() { return &lsan_flags; }

 void InitCommonLsan();
 // Testing interface. Find leaked chunks and dump their addresses to vector.
 void ReportLeaked(InternalVector<void *> *leaked, uptr sources);
 // Normal leak check. Find leaks and print a report according to flags.
 void DoLeakCheck();

 struct Leak {
   uptr hit_count;
   uptr total_size;
   u32 stack_trace_id;
   bool is_directly_leaked;
 };

 // Aggregates leaks by stack trace prefix.
 class LeakReport {
  public:
   LeakReport() : leaks_(1) {}
   void Add(u32 stack_trace_id, uptr leaked_size, ChunkTag tag);
   void PrintLargest(uptr max_leaks);
   void PrintSummary();
   bool IsEmpty() { return leaks_.size() == 0; }
  private:
   InternalVector<Leak> leaks_;
 };

 // Platform-specific functions.
 void InitializePlatformSpecificModules();
 void ProcessGlobalRegions(InternalVector<uptr> *frontier);
 void ProcessPlatformSpecificAllocations(InternalVector<uptr> *frontier);

 void ScanRangeForPointers(uptr begin, uptr end, InternalVector<uptr> *frontier,
                           const char *region_type, ChunkTag tag);

 // Callables for iterating over chunks. Those classes are used as template
 // parameters in ForEachChunk, so we must expose them here to allow for explicit
 // template instantiation.

 // Identifies unreachable chunks which must be treated as reachable. Marks them
 // as reachable and adds them to the frontier.
 class ProcessPlatformSpecificAllocationsCb {
  public:
   explicit ProcessPlatformSpecificAllocationsCb(InternalVector<uptr> *frontier)
       : frontier_(frontier) {}
   void operator()(void *p) const;
  private:
   InternalVector<uptr> *frontier_;
 };

 // Prints addresses of unreachable chunks.
 class PrintLeakedCb {
  public:
   void operator()(void *p) const;
 };

 // Aggregates unreachable chunks into a LeakReport.
 class CollectLeaksCb {
  public:
   explicit CollectLeaksCb(LeakReport *leak_report)
       : leak_report_(leak_report) {}
   void operator()(void *p) const;
  private:
   LeakReport *leak_report_;
 };

 // Resets each chunk's tag to default (kDirectlyLeaked).
 class ClearTagCb {
  public:
   void operator()(void *p) const;
 };

 // Scans each leaked chunk for pointers to other leaked chunks, and marks each
 // of them as indirectly leaked.
 class MarkIndirectlyLeakedCb {
  public:
   void operator()(void *p) const;
 };

 // The following must be implemented in the parent tool.

 template<typename Callable> void ForEachChunk(Callable const &callback);
 // The address range occupied by the global allocator object.
 void GetAllocatorGlobalRange(uptr *begin, uptr *end);
 // Wrappers for allocator's ForceLock()/ForceUnlock().
 void LockAllocator();
 void UnlockAllocator();
 // Wrappers for ThreadRegistry access.
 void LockThreadRegistry();
 void UnlockThreadRegistry();
 bool GetThreadRangesLocked(uptr os_id, uptr *stack_begin, uptr *stack_end,
                            uptr *tls_begin, uptr *tls_end,
                            uptr *cache_begin, uptr *cache_end);
 // If p points into a chunk that has been allocated to the user, return its
 // user-visible address. Otherwise, return 0.
 void *PointsIntoChunk(void *p);
 // Return address of user-visible chunk contained in this allocator chunk.
 void *GetUserBegin(void *p);
 // Wrapper for chunk metadata operations.
 class LsanMetadata {
  public:
   // Constructor accepts pointer to user-visible chunk.
   explicit LsanMetadata(void *chunk);
   bool allocated() const;
   ChunkTag tag() const;
   void set_tag(ChunkTag value);
   uptr requested_size() const;
   u32 stack_trace_id() const;
  private:
   void *metadata_;
 };

 }  // namespace __lsan

 #endif  // LSAN_COMMON_H
	//=-- lsan_common.h -------------------------------------------------------===//
	//
	// 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 LeakSanitizer.
	// Private LSan header.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LSAN_COMMON_H
	#define LSAN_COMMON_H

	#include "sanitizer_common/sanitizer_common.h"
	#include "sanitizer_common/sanitizer_internal_defs.h"
	#include "sanitizer_common/sanitizer_platform.h"
	#include "sanitizer_common/sanitizer_symbolizer.h"

	#if SANITIZER_LINUX && defined(__x86_64__)
	#define CAN_SANITIZE_LEAKS 1
	#else
	#define CAN_SANITIZE_LEAKS 0
	#endif

	namespace __lsan {

	// Chunk tags.
	enum ChunkTag {
	kDirectlyLeaked = 0, // default
	kIndirectlyLeaked = 1,
	kReachable = 2
	};

	struct Flags {
	uptr pointer_alignment() const {
	return use_unaligned ? 1 : sizeof(uptr);
	}

	// Print addresses of leaked blocks after main leak report.
	bool report_blocks;
	// Aggregate two blocks into one leak if this many stack frames match. If
	// zero, the entire stack trace must match.
	int resolution;
	// The number of leaks reported.
	int max_leaks;
	// If nonzero kill the process with this exit code upon finding leaks.
	int exitcode;

	// Flags controlling the root set of reachable memory.
	// Global variables (.data and .bss).
	bool use_globals;
	// Thread stacks.
	bool use_stacks;
	// Thread registers.
	bool use_registers;
	// TLS and thread-specific storage.
	bool use_tls;

	// Consider unaligned pointers valid.
	bool use_unaligned;

	// Debug logging.
	bool log_pointers;
	bool log_threads;
	};

	extern Flags lsan_flags;
	inline Flags *flags() { return &lsan_flags; }

	void InitCommonLsan();
	// Testing interface. Find leaked chunks and dump their addresses to vector.
	void ReportLeaked(InternalVector<void > leaked, uptr sources);
	// Normal leak check. Find leaks and print a report according to flags.
	void DoLeakCheck();

	struct Leak {
	uptr hit_count;
	uptr total_size;
	u32 stack_trace_id;
	bool is_directly_leaked;
	};

	// Aggregates leaks by stack trace prefix.
	class LeakReport {
	public:
	LeakReport() : leaks_(1) {}
	void Add(u32 stack_trace_id, uptr leaked_size, ChunkTag tag);
	void PrintLargest(uptr max_leaks);
	void PrintSummary();
	bool IsEmpty() { return leaks_.size() == 0; }
	private:
	InternalVector<Leak> leaks_;
	};

	// Platform-specific functions.
	void InitializePlatformSpecificModules();
	void ProcessGlobalRegions(InternalVector<uptr> *frontier);
	void ProcessPlatformSpecificAllocations(InternalVector<uptr> *frontier);

	void ScanRangeForPointers(uptr begin, uptr end, InternalVector<uptr> *frontier,
	const char *region_type, ChunkTag tag);

	// Callables for iterating over chunks. Those classes are used as template
	// parameters in ForEachChunk, so we must expose them here to allow for explicit
	// template instantiation.

	// Identifies unreachable chunks which must be treated as reachable. Marks them
	// as reachable and adds them to the frontier.
	class ProcessPlatformSpecificAllocationsCb {
	public:
	explicit ProcessPlatformSpecificAllocationsCb(InternalVector<uptr> *frontier)
	: frontier_(frontier) {}
	void operator()(void *p) const;
	private:
	InternalVector<uptr> *frontier_;
	};

	// Prints addresses of unreachable chunks.
	class PrintLeakedCb {
	public:
	void operator()(void *p) const;
	};

	// Aggregates unreachable chunks into a LeakReport.
	class CollectLeaksCb {
	public:
	explicit CollectLeaksCb(LeakReport *leak_report)
	: leak_report_(leak_report) {}
	void operator()(void *p) const;
	private:
	LeakReport *leak_report_;
	};

	// Resets each chunk's tag to default (kDirectlyLeaked).
	class ClearTagCb {
	public:
	void operator()(void *p) const;
	};

	// Scans each leaked chunk for pointers to other leaked chunks, and marks each
	// of them as indirectly leaked.
	class MarkIndirectlyLeakedCb {
	public:
	void operator()(void *p) const;
	};

	// The following must be implemented in the parent tool.

	template<typename Callable> void ForEachChunk(Callable const &callback);
	// The address range occupied by the global allocator object.
	void GetAllocatorGlobalRange(uptr begin, uptr end);
	// Wrappers for allocator's ForceLock()/ForceUnlock().
	void LockAllocator();
	void UnlockAllocator();
	// Wrappers for ThreadRegistry access.
	void LockThreadRegistry();
	void UnlockThreadRegistry();
	bool GetThreadRangesLocked(uptr os_id, uptr stack_begin, uptr stack_end,
	uptr tls_begin, uptr tls_end,
	uptr cache_begin, uptr cache_end);
	// If p points into a chunk that has been allocated to the user, return its
	// user-visible address. Otherwise, return 0.
	void PointsIntoChunk(void p);
	// Return address of user-visible chunk contained in this allocator chunk.
	void GetUserBegin(void p);
	// Wrapper for chunk metadata operations.
	class LsanMetadata {
	public:
	// Constructor accepts pointer to user-visible chunk.
	explicit LsanMetadata(void *chunk);
	bool allocated() const;
	ChunkTag tag() const;
	void set_tag(ChunkTag value);
	uptr requested_size() const;
	u32 stack_trace_id() const;
	private:
	void *metadata_;
	};

	} // namespace __lsan

	#endif // LSAN_COMMON_H