base/process/memory_linux.cc - mojo-tools - Git at Google

 // Copyright (c) 2013 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "base/process/memory.h"

 #include <new>

 #include "base/files/file_path.h"
 #include "base/files/file_util.h"
 #include "base/logging.h"
 #include "base/process/internal_linux.h"
 #include "base/strings/string_number_conversions.h"

 #if defined(USE_TCMALLOC)
 // Used by UncheckedMalloc. If tcmalloc is linked to the executable
 // this will be replaced by a strong symbol that actually implement
 // the semantics and don't call new handler in case the allocation fails.
 extern "C" {

 __attribute__((weak, visibility("default")))
 void* tc_malloc_skip_new_handler_weak(size_t size);

 void* tc_malloc_skip_new_handler_weak(size_t size) {
   return malloc(size);
 }

 }
 #endif

 namespace base {

 size_t g_oom_size = 0U;

 namespace {

 #if !defined(OS_ANDROID)
 void OnNoMemorySize(size_t size) {
   g_oom_size = size;

   if (size != 0)
     LOG(FATAL) << "Out of memory, size = " << size;
   LOG(FATAL) << "Out of memory.";
 }

 void OnNoMemory() {
   OnNoMemorySize(0);
 }
 #endif  // !defined(OS_ANDROID)

 }  // namespace

 #if !defined(ADDRESS_SANITIZER) && !defined(MEMORY_SANITIZER) && \
     !defined(THREAD_SANITIZER) && !defined(LEAK_SANITIZER)

 #if defined(LIBC_GLIBC) && !defined(USE_TCMALLOC)

 extern "C" {
 void* __libc_malloc(size_t size);
 void* __libc_realloc(void* ptr, size_t size);
 void* __libc_calloc(size_t nmemb, size_t size);
 void* __libc_valloc(size_t size);
 #if PVALLOC_AVAILABLE == 1
 void* __libc_pvalloc(size_t size);
 #endif
 void* __libc_memalign(size_t alignment, size_t size);

 // Overriding the system memory allocation functions:
 //
 // For security reasons, we want malloc failures to be fatal. Too much code
 // doesn't check for a NULL return value from malloc and unconditionally uses
 // the resulting pointer. If the first offset that they try to access is
 // attacker controlled, then the attacker can direct the code to access any
 // part of memory.
 //
 // Thus, we define all the standard malloc functions here and mark them as
 // visibility 'default'. This means that they replace the malloc functions for
 // all Chromium code and also for all code in shared libraries. There are tests
 // for this in process_util_unittest.cc.
 //
 // If we are using tcmalloc, then the problem is moot since tcmalloc handles
 // this for us. Thus this code is in a !defined(USE_TCMALLOC) block.
 //
 // If we are testing the binary with AddressSanitizer, we should not
 // redefine malloc and let AddressSanitizer do it instead.
 //
 // We call the real libc functions in this code by using __libc_malloc etc.
 // Previously we tried using dlsym(RTLD_NEXT, ...) but that failed depending on
 // the link order. Since ld.so needs calloc during symbol resolution, it
 // defines its own versions of several of these functions in dl-minimal.c.
 // Depending on the runtime library order, dlsym ended up giving us those
 // functions and bad things happened. See crbug.com/31809
 //
 // This means that any code which calls __libc_* gets the raw libc versions of
 // these functions.

 #define DIE_ON_OOM_1(function_name) \
   void* function_name(size_t) __attribute__ ((visibility("default"))); \
   \
   void* function_name(size_t size) { \
     void* ret = __libc_##function_name(size); \
     if (ret == NULL && size != 0) \
       OnNoMemorySize(size); \
     return ret; \
   }

 #define DIE_ON_OOM_2(function_name, arg1_type) \
   void* function_name(arg1_type, size_t) \
       __attribute__ ((visibility("default"))); \
   \
   void* function_name(arg1_type arg1, size_t size) { \
     void* ret = __libc_##function_name(arg1, size); \
     if (ret == NULL && size != 0) \
       OnNoMemorySize(size); \
     return ret; \
   }

 DIE_ON_OOM_1(malloc)
 DIE_ON_OOM_1(valloc)
 #if PVALLOC_AVAILABLE == 1
 DIE_ON_OOM_1(pvalloc)
 #endif

 DIE_ON_OOM_2(calloc, size_t)
 DIE_ON_OOM_2(realloc, void*)
 DIE_ON_OOM_2(memalign, size_t)

 // posix_memalign has a unique signature and doesn't have a __libc_ variant.
 int posix_memalign(void** ptr, size_t alignment, size_t size)
     __attribute__ ((visibility("default")));

 int posix_memalign(void** ptr, size_t alignment, size_t size) {
   // This will use the safe version of memalign, above.
   *ptr = memalign(alignment, size);
   return 0;
 }

 }  // extern C

 #else

 // TODO(mostynb@opera.com): dlsym dance

 #endif  // LIBC_GLIBC && !USE_TCMALLOC

 #endif  // !*_SANITIZER

 void EnableTerminationOnHeapCorruption() {
   // On Linux, there nothing to do AFAIK.
 }

 void EnableTerminationOnOutOfMemory() {
 #if defined(OS_ANDROID)
   // Android doesn't support setting a new handler.
   DLOG(WARNING) << "Not feasible.";
 #else
   // Set the new-out of memory handler.
   std::set_new_handler(&OnNoMemory);
   // If we're using glibc's allocator, the above functions will override
   // malloc and friends and make them die on out of memory.
 #endif
 }

 // NOTE: This is not the only version of this function in the source:
 // the setuid sandbox (in process_util_linux.c, in the sandbox source)
 // also has its own C version.
 bool AdjustOOMScore(ProcessId process, int score) {
   if (score < 0 || score > kMaxOomScore)
     return false;

   FilePath oom_path(internal::GetProcPidDir(process));

   // Attempt to write the newer oom_score_adj file first.
   FilePath oom_file = oom_path.AppendASCII("oom_score_adj");
   if (PathExists(oom_file)) {
     std::string score_str = IntToString(score);
     DVLOG(1) << "Adjusting oom_score_adj of " << process << " to "
              << score_str;
     int score_len = static_cast<int>(score_str.length());
     return (score_len == WriteFile(oom_file, score_str.c_str(), score_len));
   }

   // If the oom_score_adj file doesn't exist, then we write the old
   // style file and translate the oom_adj score to the range 0-15.
   oom_file = oom_path.AppendASCII("oom_adj");
   if (PathExists(oom_file)) {
     // Max score for the old oom_adj range.  Used for conversion of new
     // values to old values.
     const int kMaxOldOomScore = 15;

     int converted_score = score * kMaxOldOomScore / kMaxOomScore;
     std::string score_str = IntToString(converted_score);
     DVLOG(1) << "Adjusting oom_adj of " << process << " to " << score_str;
     int score_len = static_cast<int>(score_str.length());
     return (score_len == WriteFile(oom_file, score_str.c_str(), score_len));
   }

   return false;
 }

 bool UncheckedMalloc(size_t size, void** result) {
 #if defined(MEMORY_TOOL_REPLACES_ALLOCATOR) || \
     (!defined(LIBC_GLIBC) && !defined(USE_TCMALLOC))
   *result = malloc(size);
 #elif defined(LIBC_GLIBC) && !defined(USE_TCMALLOC)
   *result = __libc_malloc(size);
 #elif defined(USE_TCMALLOC)
   *result = tc_malloc_skip_new_handler_weak(size);
 #endif
   return *result != NULL;
 }

 }  // namespace base
	// Copyright (c) 2013 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "base/process/memory.h"

	#include <new>

	#include "base/files/file_path.h"
	#include "base/files/file_util.h"
	#include "base/logging.h"
	#include "base/process/internal_linux.h"
	#include "base/strings/string_number_conversions.h"

	#if defined(USE_TCMALLOC)
	// Used by UncheckedMalloc. If tcmalloc is linked to the executable
	// this will be replaced by a strong symbol that actually implement
	// the semantics and don't call new handler in case the allocation fails.
	extern "C" {

	__attribute__((weak, visibility("default")))
	void* tc_malloc_skip_new_handler_weak(size_t size);

	void* tc_malloc_skip_new_handler_weak(size_t size) {
	return malloc(size);
	}

	}
	#endif

	namespace base {

	size_t g_oom_size = 0U;

	namespace {

	#if !defined(OS_ANDROID)
	void OnNoMemorySize(size_t size) {
	g_oom_size = size;

	if (size != 0)
	LOG(FATAL) << "Out of memory, size = " << size;
	LOG(FATAL) << "Out of memory.";
	}

	void OnNoMemory() {
	OnNoMemorySize(0);
	}
	#endif // !defined(OS_ANDROID)

	} // namespace

	#if !defined(ADDRESS_SANITIZER) && !defined(MEMORY_SANITIZER) && \
	!defined(THREAD_SANITIZER) && !defined(LEAK_SANITIZER)

	#if defined(LIBC_GLIBC) && !defined(USE_TCMALLOC)

	extern "C" {
	void* __libc_malloc(size_t size);
	void* __libc_realloc(void* ptr, size_t size);
	void* __libc_calloc(size_t nmemb, size_t size);
	void* __libc_valloc(size_t size);
	#if PVALLOC_AVAILABLE == 1
	void* __libc_pvalloc(size_t size);
	#endif
	void* __libc_memalign(size_t alignment, size_t size);

	// Overriding the system memory allocation functions:
	//
	// For security reasons, we want malloc failures to be fatal. Too much code
	// doesn't check for a NULL return value from malloc and unconditionally uses
	// the resulting pointer. If the first offset that they try to access is
	// attacker controlled, then the attacker can direct the code to access any
	// part of memory.
	//
	// Thus, we define all the standard malloc functions here and mark them as
	// visibility 'default'. This means that they replace the malloc functions for
	// all Chromium code and also for all code in shared libraries. There are tests
	// for this in process_util_unittest.cc.
	//
	// If we are using tcmalloc, then the problem is moot since tcmalloc handles
	// this for us. Thus this code is in a !defined(USE_TCMALLOC) block.
	//
	// If we are testing the binary with AddressSanitizer, we should not
	// redefine malloc and let AddressSanitizer do it instead.
	//
	// We call the real libc functions in this code by using __libc_malloc etc.
	// Previously we tried using dlsym(RTLD_NEXT, ...) but that failed depending on
	// the link order. Since ld.so needs calloc during symbol resolution, it
	// defines its own versions of several of these functions in dl-minimal.c.
	// Depending on the runtime library order, dlsym ended up giving us those
	// functions and bad things happened. See crbug.com/31809
	//
	// This means that any code which calls __libc_* gets the raw libc versions of
	// these functions.

	#define DIE_ON_OOM_1(function_name) \
	void* function_name(size_t) __attribute__ ((visibility("default"))); \
	\
	void* function_name(size_t size) { \
	void* ret = __libc_##function_name(size); \
	if (ret == NULL && size != 0) \
	OnNoMemorySize(size); \
	return ret; \
	}

	#define DIE_ON_OOM_2(function_name, arg1_type) \
	void* function_name(arg1_type, size_t) \
	__attribute__ ((visibility("default"))); \
	\
	void* function_name(arg1_type arg1, size_t size) { \
	void* ret = __libc_##function_name(arg1, size); \
	if (ret == NULL && size != 0) \
	OnNoMemorySize(size); \
	return ret; \
	}

	DIE_ON_OOM_1(malloc)
	DIE_ON_OOM_1(valloc)
	#if PVALLOC_AVAILABLE == 1
	DIE_ON_OOM_1(pvalloc)
	#endif

	DIE_ON_OOM_2(calloc, size_t)
	DIE_ON_OOM_2(realloc, void*)
	DIE_ON_OOM_2(memalign, size_t)

	// posix_memalign has a unique signature and doesn't have a __libc_ variant.
	int posix_memalign(void** ptr, size_t alignment, size_t size)
	__attribute__ ((visibility("default")));

	int posix_memalign(void** ptr, size_t alignment, size_t size) {
	// This will use the safe version of memalign, above.
	*ptr = memalign(alignment, size);
	return 0;
	}

	} // extern C

	#else

	// TODO(mostynb@opera.com): dlsym dance

	#endif // LIBC_GLIBC && !USE_TCMALLOC

	#endif // !*_SANITIZER

	void EnableTerminationOnHeapCorruption() {
	// On Linux, there nothing to do AFAIK.
	}

	void EnableTerminationOnOutOfMemory() {
	#if defined(OS_ANDROID)
	// Android doesn't support setting a new handler.
	DLOG(WARNING) << "Not feasible.";
	#else
	// Set the new-out of memory handler.
	std::set_new_handler(&OnNoMemory);
	// If we're using glibc's allocator, the above functions will override
	// malloc and friends and make them die on out of memory.
	#endif
	}

	// NOTE: This is not the only version of this function in the source:
	// the setuid sandbox (in process_util_linux.c, in the sandbox source)
	// also has its own C version.
	bool AdjustOOMScore(ProcessId process, int score) {
	if (score < 0 \|\| score > kMaxOomScore)
	return false;

	FilePath oom_path(internal::GetProcPidDir(process));

	// Attempt to write the newer oom_score_adj file first.
	FilePath oom_file = oom_path.AppendASCII("oom_score_adj");
	if (PathExists(oom_file)) {
	std::string score_str = IntToString(score);
	DVLOG(1) << "Adjusting oom_score_adj of " << process << " to "
	<< score_str;
	int score_len = static_cast<int>(score_str.length());
	return (score_len == WriteFile(oom_file, score_str.c_str(), score_len));
	}

	// If the oom_score_adj file doesn't exist, then we write the old
	// style file and translate the oom_adj score to the range 0-15.
	oom_file = oom_path.AppendASCII("oom_adj");
	if (PathExists(oom_file)) {
	// Max score for the old oom_adj range. Used for conversion of new
	// values to old values.
	const int kMaxOldOomScore = 15;

	int converted_score = score * kMaxOldOomScore / kMaxOomScore;
	std::string score_str = IntToString(converted_score);
	DVLOG(1) << "Adjusting oom_adj of " << process << " to " << score_str;
	int score_len = static_cast<int>(score_str.length());
	return (score_len == WriteFile(oom_file, score_str.c_str(), score_len));
	}

	return false;
	}

	bool UncheckedMalloc(size_t size, void** result) {
	#if defined(MEMORY_TOOL_REPLACES_ALLOCATOR) \|\| \
	(!defined(LIBC_GLIBC) && !defined(USE_TCMALLOC))
	*result = malloc(size);
	#elif defined(LIBC_GLIBC) && !defined(USE_TCMALLOC)
	*result = __libc_malloc(size);
	#elif defined(USE_TCMALLOC)
	*result = tc_malloc_skip_new_handler_weak(size);
	#endif
	return *result != NULL;
	}

	} // namespace base