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423 lines
17 KiB
C++
423 lines
17 KiB
C++
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// -*- Mode: C++; c-basic-offset: 2; indent-tabs-mode: nil -*-
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// Copyright (c) 2005, Google Inc.
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// All rights reserved.
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//
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are
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// met:
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//
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// * Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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// * Redistributions in binary form must reproduce the above
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// copyright notice, this list of conditions and the following disclaimer
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// in the documentation and/or other materials provided with the
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// distribution.
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// * Neither the name of Google Inc. nor the names of its
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// contributors may be used to endorse or promote products derived from
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// this software without specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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// ---
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// Author: Maxim Lifantsev (with design ideas by Sanjay Ghemawat)
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//
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//
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// Module for detecing heap (memory) leaks.
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//
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// For full(er) information, see doc/heap_checker.html
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//
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// This module can be linked into programs with
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// no slowdown caused by this unless you activate the leak-checker:
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//
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// 1. Set the environment variable HEAPCHEK to _type_ before
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// running the program.
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//
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// _type_ is usually "normal" but can also be "minimal", "strict", or
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// "draconian". (See the html file for other options, like 'local'.)
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//
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// After that, just run your binary. If the heap-checker detects
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// a memory leak at program-exit, it will print instructions on how
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// to track down the leak.
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#ifndef BASE_HEAP_CHECKER_H_
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#define BASE_HEAP_CHECKER_H_
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#include <sys/types.h> // for size_t
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// I can't #include config.h in this public API file, but I should
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// really use configure (and make malloc_extension.h a .in file) to
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// figure out if the system has stdint.h or not. But I'm lazy, so
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// for now I'm assuming it's a problem only with MSVC.
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#ifndef _MSC_VER
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#include <stdint.h> // for uintptr_t
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#endif
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#include <stdarg.h> // for va_list
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#include <vector>
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// Annoying stuff for windows -- makes sure clients can import these functions
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#ifndef PERFTOOLS_DLL_DECL
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# ifdef _WIN32
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# define PERFTOOLS_DLL_DECL __declspec(dllimport)
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# else
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# define PERFTOOLS_DLL_DECL
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# endif
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#endif
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// The class is thread-safe with respect to all the provided static methods,
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// as well as HeapLeakChecker objects: they can be accessed by multiple threads.
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class PERFTOOLS_DLL_DECL HeapLeakChecker {
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public:
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// ----------------------------------------------------------------------- //
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// Static functions for working with (whole-program) leak checking.
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// If heap leak checking is currently active in some mode
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// e.g. if leak checking was started (and is still active now)
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// due to HEAPCHECK=... defined in the environment.
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// The return value reflects iff HeapLeakChecker objects manually
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// constructed right now will be doing leak checking or nothing.
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// Note that we can go from active to inactive state during InitGoogle()
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// if FLAGS_heap_check gets set to "" by some code before/during InitGoogle().
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static bool IsActive();
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// Return pointer to the whole-program checker if it has been created
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// and NULL otherwise.
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// Once GlobalChecker() returns non-NULL that object will not disappear and
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// will be returned by all later GlobalChecker calls.
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// This is mainly to access BytesLeaked() and ObjectsLeaked() (see below)
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// for the whole-program checker after one calls NoGlobalLeaks()
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// or similar and gets false.
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static HeapLeakChecker* GlobalChecker();
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// Do whole-program leak check now (if it was activated for this binary);
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// return false only if it was activated and has failed.
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// The mode of the check is controlled by the command-line flags.
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// This method can be called repeatedly.
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// Things like GlobalChecker()->SameHeap() can also be called explicitly
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// to do the desired flavor of the check.
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static bool NoGlobalLeaks();
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// If whole-program checker if active,
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// cancel its automatic execution after main() exits.
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// This requires that some leak check (e.g. NoGlobalLeaks())
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// has been called at least once on the whole-program checker.
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static void CancelGlobalCheck();
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// ----------------------------------------------------------------------- //
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// Non-static functions for starting and doing leak checking.
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// Start checking and name the leak check performed.
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// The name is used in naming dumped profiles
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// and needs to be unique only within your binary.
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// It must also be a string that can be a part of a file name,
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// in particular not contain path expressions.
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explicit HeapLeakChecker(const char *name);
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// Destructor (verifies that some *NoLeaks or *SameHeap method
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// has been called at least once).
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~HeapLeakChecker();
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// These used to be different but are all the same now: they return
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// true iff all memory allocated since this HeapLeakChecker object
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// was constructor is still reachable from global state.
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//
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// Because we fork to convert addresses to symbol-names, and forking
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// is not thread-safe, and we may be called in a threaded context,
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// we do not try to symbolize addresses when called manually.
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bool NoLeaks() { return DoNoLeaks(DO_NOT_SYMBOLIZE); }
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// These forms are obsolete; use NoLeaks() instead.
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// TODO(csilvers): mark as DEPRECATED.
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bool QuickNoLeaks() { return NoLeaks(); }
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bool BriefNoLeaks() { return NoLeaks(); }
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bool SameHeap() { return NoLeaks(); }
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bool QuickSameHeap() { return NoLeaks(); }
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bool BriefSameHeap() { return NoLeaks(); }
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// Detailed information about the number of leaked bytes and objects
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// (both of these can be negative as well).
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// These are available only after a *SameHeap or *NoLeaks
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// method has been called.
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// Note that it's possible for both of these to be zero
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// while SameHeap() or NoLeaks() returned false in case
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// of a heap state change that is significant
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// but preserves the byte and object counts.
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ssize_t BytesLeaked() const;
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ssize_t ObjectsLeaked() const;
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// ----------------------------------------------------------------------- //
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// Static helpers to make us ignore certain leaks.
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// Scoped helper class. Should be allocated on the stack inside a
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// block of code. Any heap allocations done in the code block
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// covered by the scoped object (including in nested function calls
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// done by the code block) will not be reported as leaks. This is
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// the recommended replacement for the GetDisableChecksStart() and
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// DisableChecksToHereFrom() routines below.
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//
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// Example:
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// void Foo() {
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// HeapLeakChecker::Disabler disabler;
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// ... code that allocates objects whose leaks should be ignored ...
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// }
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//
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// REQUIRES: Destructor runs in same thread as constructor
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class Disabler {
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public:
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Disabler();
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~Disabler();
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private:
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Disabler(const Disabler&); // disallow copy
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void operator=(const Disabler&); // and assign
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};
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// Ignore an object located at 'ptr' (can go at the start or into the object)
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// as well as all heap objects (transitively) referenced from it for the
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// purposes of heap leak checking. Returns 'ptr' so that one can write
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// static T* obj = IgnoreObject(new T(...));
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//
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// If 'ptr' does not point to an active allocated object at the time of this
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// call, it is ignored; but if it does, the object must not get deleted from
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// the heap later on.
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//
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// See also HiddenPointer, below, if you need to prevent a pointer from
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// being traversed by the heap checker but do not wish to transitively
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// whitelist objects referenced through it.
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template <typename T>
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static T* IgnoreObject(T* ptr) {
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DoIgnoreObject(static_cast<const void*>(const_cast<const T*>(ptr)));
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return ptr;
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}
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// Undo what an earlier IgnoreObject() call promised and asked to do.
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// At the time of this call 'ptr' must point at or inside of an active
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// allocated object which was previously registered with IgnoreObject().
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static void UnIgnoreObject(const void* ptr);
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// ----------------------------------------------------------------------- //
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// Internal types defined in .cc
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class Allocator;
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struct RangeValue;
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private:
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// ----------------------------------------------------------------------- //
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// Various helpers
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// Create the name of the heap profile file.
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// Should be deleted via Allocator::Free().
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char* MakeProfileNameLocked();
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// Helper for constructors
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void Create(const char *name, bool make_start_snapshot);
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enum ShouldSymbolize { SYMBOLIZE, DO_NOT_SYMBOLIZE };
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// Helper for *NoLeaks and *SameHeap
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bool DoNoLeaks(ShouldSymbolize should_symbolize);
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// Helper for NoGlobalLeaks, also called by the global destructor.
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static bool NoGlobalLeaksMaybeSymbolize(ShouldSymbolize should_symbolize);
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// These used to be public, but they are now deprecated.
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// Will remove entirely when all internal uses are fixed.
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// In the meantime, use friendship so the unittest can still test them.
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static void* GetDisableChecksStart();
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static void DisableChecksToHereFrom(const void* start_address);
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static void DisableChecksIn(const char* pattern);
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friend void RangeDisabledLeaks();
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friend void NamedTwoDisabledLeaks();
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friend void* RunNamedDisabledLeaks(void*);
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friend void TestHeapLeakCheckerNamedDisabling();
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// Actually implements IgnoreObject().
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static void DoIgnoreObject(const void* ptr);
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// Disable checks based on stack trace entry at a depth <=
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// max_depth. Used to hide allocations done inside some special
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// libraries.
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static void DisableChecksFromToLocked(const void* start_address,
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const void* end_address,
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int max_depth);
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// Helper for DoNoLeaks to ignore all objects reachable from all live data
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static void IgnoreAllLiveObjectsLocked(const void* self_stack_top);
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// Callback we pass to TCMalloc_ListAllProcessThreads (see thread_lister.h)
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// that is invoked when all threads of our process are found and stopped.
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// The call back does the things needed to ignore live data reachable from
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// thread stacks and registers for all our threads
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// as well as do other global-live-data ignoring
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// (via IgnoreNonThreadLiveObjectsLocked)
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// during the quiet state of all threads being stopped.
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// For the argument meaning see the comment by TCMalloc_ListAllProcessThreads.
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// Here we only use num_threads and thread_pids, that TCMalloc_ListAllProcessThreads
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// fills for us with the number and pids of all the threads of our process
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// it found and attached to.
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static int IgnoreLiveThreadsLocked(void* parameter,
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int num_threads,
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pid_t* thread_pids,
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va_list ap);
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// Helper for IgnoreAllLiveObjectsLocked and IgnoreLiveThreadsLocked
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// that we prefer to execute from IgnoreLiveThreadsLocked
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// while all threads are stopped.
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// This helper does live object discovery and ignoring
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// for all objects that are reachable from everything
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// not related to thread stacks and registers.
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static void IgnoreNonThreadLiveObjectsLocked();
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// Helper for IgnoreNonThreadLiveObjectsLocked and IgnoreLiveThreadsLocked
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// to discover and ignore all heap objects
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// reachable from currently considered live objects
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// (live_objects static global variable in out .cc file).
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// "name", "name2" are two strings that we print one after another
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// in a debug message to describe what kind of live object sources
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// are being used.
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static void IgnoreLiveObjectsLocked(const char* name, const char* name2);
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// Do the overall whole-program heap leak check if needed;
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// returns true when did the leak check.
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static bool DoMainHeapCheck();
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// Type of task for UseProcMapsLocked
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enum ProcMapsTask {
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RECORD_GLOBAL_DATA,
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DISABLE_LIBRARY_ALLOCS
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};
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// Success/Error Return codes for UseProcMapsLocked.
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enum ProcMapsResult {
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PROC_MAPS_USED,
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CANT_OPEN_PROC_MAPS,
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NO_SHARED_LIBS_IN_PROC_MAPS
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};
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// Read /proc/self/maps, parse it, and do the 'proc_maps_task' for each line.
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static ProcMapsResult UseProcMapsLocked(ProcMapsTask proc_maps_task);
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// A ProcMapsTask to disable allocations from 'library'
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// that is mapped to [start_address..end_address)
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// (only if library is a certain system library).
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static void DisableLibraryAllocsLocked(const char* library,
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uintptr_t start_address,
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uintptr_t end_address);
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// Return true iff "*ptr" points to a heap object
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// ("*ptr" can point at the start or inside of a heap object
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// so that this works e.g. for pointers to C++ arrays, C++ strings,
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// multiple-inherited objects, or pointers to members).
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// We also fill *object_size for this object then
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// and we move "*ptr" to point to the very start of the heap object.
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static inline bool HaveOnHeapLocked(const void** ptr, size_t* object_size);
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// Helper to shutdown heap leak checker when it's not needed
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// or can't function properly.
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static void TurnItselfOffLocked();
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// Internally-used c-tor to start whole-executable checking.
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HeapLeakChecker();
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// ----------------------------------------------------------------------- //
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// Friends and externally accessed helpers.
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// Helper for VerifyHeapProfileTableStackGet in the unittest
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// to get the recorded allocation caller for ptr,
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// which must be a heap object.
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static const void* GetAllocCaller(void* ptr);
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friend void VerifyHeapProfileTableStackGet();
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// This gets to execute before constructors for all global objects
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static void BeforeConstructorsLocked();
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friend void HeapLeakChecker_BeforeConstructors();
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// This gets to execute after destructors for all global objects
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friend void HeapLeakChecker_AfterDestructors();
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// Full starting of recommended whole-program checking.
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friend void HeapLeakChecker_InternalInitStart();
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// Runs REGISTER_HEAPCHECK_CLEANUP cleanups and potentially
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// calls DoMainHeapCheck
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friend void HeapLeakChecker_RunHeapCleanups();
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// ----------------------------------------------------------------------- //
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// Member data.
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class SpinLock* lock_; // to make HeapLeakChecker objects thread-safe
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const char* name_; // our remembered name (we own it)
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// NULL means this leak checker is a noop
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// Snapshot taken when the checker was created. May be NULL
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// for the global heap checker object. We use void* instead of
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// HeapProfileTable::Snapshot* to avoid including heap-profile-table.h.
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void* start_snapshot_;
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bool has_checked_; // if we have done the leak check, so these are ready:
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ssize_t inuse_bytes_increase_; // bytes-in-use increase for this checker
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ssize_t inuse_allocs_increase_; // allocations-in-use increase
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// for this checker
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bool keep_profiles_; // iff we should keep the heap profiles we've made
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// ----------------------------------------------------------------------- //
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// Disallow "evil" constructors.
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HeapLeakChecker(const HeapLeakChecker&);
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void operator=(const HeapLeakChecker&);
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};
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// Holds a pointer that will not be traversed by the heap checker.
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// Contrast with HeapLeakChecker::IgnoreObject(o), in which o and
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// all objects reachable from o are ignored by the heap checker.
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template <class T>
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class HiddenPointer {
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public:
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explicit HiddenPointer(T* t)
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: masked_t_(reinterpret_cast<uintptr_t>(t) ^ kHideMask) {
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}
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// Returns unhidden pointer. Be careful where you save the result.
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T* get() const { return reinterpret_cast<T*>(masked_t_ ^ kHideMask); }
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private:
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// Arbitrary value, but not such that xor'ing with it is likely
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// to map one valid pointer to another valid pointer:
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static const uintptr_t kHideMask =
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static_cast<uintptr_t>(0xF03A5F7BF03A5F7Bll);
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uintptr_t masked_t_;
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};
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// A class that exists solely to run its destructor. This class should not be
|
||
|
// used directly, but instead by the REGISTER_HEAPCHECK_CLEANUP macro below.
|
||
|
class PERFTOOLS_DLL_DECL HeapCleaner {
|
||
|
public:
|
||
|
typedef void (*void_function)(void);
|
||
|
HeapCleaner(void_function f);
|
||
|
static void RunHeapCleanups();
|
||
|
private:
|
||
|
static std::vector<void_function>* heap_cleanups_;
|
||
|
};
|
||
|
|
||
|
// A macro to declare module heap check cleanup tasks
|
||
|
// (they run only if we are doing heap leak checking.)
|
||
|
// 'body' should be the cleanup code to run. 'name' doesn't matter,
|
||
|
// but must be unique amongst all REGISTER_HEAPCHECK_CLEANUP calls.
|
||
|
#define REGISTER_HEAPCHECK_CLEANUP(name, body) \
|
||
|
namespace { \
|
||
|
void heapcheck_cleanup_##name() { body; } \
|
||
|
static HeapCleaner heapcheck_cleaner_##name(&heapcheck_cleanup_##name); \
|
||
|
}
|
||
|
|
||
|
#endif // BASE_HEAP_CHECKER_H_
|