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253 lines
9.5 KiB
C++
253 lines
9.5 KiB
C++
// Copyright 2017 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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// Protected memory is memory holding security-sensitive data intended to be
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// left read-only for the majority of its lifetime to avoid being overwritten
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// by attackers. ProtectedMemory is a simple wrapper around platform-specific
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// APIs to set memory read-write and read-only when required. Protected memory
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// should be set read-write for the minimum amount of time required.
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// Variables stored in protected memory must be global variables declared in the
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// PROTECTED_MEMORY_SECTION so they are set to read-only upon start-up.
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#ifndef BASE_MEMORY_PROTECTED_MEMORY_H_
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#define BASE_MEMORY_PROTECTED_MEMORY_H_
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#include "base/lazy_instance.h"
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#include "base/logging.h"
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#include "base/macros.h"
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#include "base/synchronization/lock.h"
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#include "build/build_config.h"
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#define PROTECTED_MEMORY_ENABLED 1
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#if defined(OS_LINUX)
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// Define the section read-only
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__asm__(".section protected_memory, \"a\"\n\t");
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#define PROTECTED_MEMORY_SECTION __attribute__((section("protected_memory")))
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// Explicitly mark these variables hidden so the symbols are local to the
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// currently built component. Otherwise they are created with global (external)
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// linkage and component builds would break because a single pair of these
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// symbols would override the rest.
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__attribute__((visibility("hidden"))) extern char __start_protected_memory;
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__attribute__((visibility("hidden"))) extern char __stop_protected_memory;
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#elif defined(OS_MACOSX) && !defined(OS_IOS)
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// The segment the section is in is defined read-only with a linker flag in
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// build/config/mac/BUILD.gn
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#define PROTECTED_MEMORY_SECTION \
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__attribute__((section("PROTECTED_MEMORY, protected_memory")))
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extern char __start_protected_memory __asm(
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"section$start$PROTECTED_MEMORY$protected_memory");
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extern char __stop_protected_memory __asm(
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"section$end$PROTECTED_MEMORY$protected_memory");
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#else
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#undef PROTECTED_MEMORY_ENABLED
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#define PROTECTED_MEMORY_ENABLED 0
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#define PROTECTED_MEMORY_SECTION
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#endif
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namespace base {
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// Normally mutable variables are held in read-write memory and constant data
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// is held in read-only memory to ensure it is not accidentally overwritten.
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// In some cases we want to hold mutable variables in read-only memory, except
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// when they are being written to, to ensure that they are not tampered with.
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//
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// ProtectedMemory is a container class intended to hold a single variable in
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// read-only memory, except when explicitly set read-write. The variable can be
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// set read-write by creating a scoped AutoWritableMemory object by calling
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// AutoWritableMemory::Create(), the memory stays writable until the returned
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// object goes out of scope and is destructed. The wrapped variable can be
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// accessed using operator* and operator->.
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//
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// Instances of ProtectedMemory must be declared in the PROTECTED_MEMORY_SECTION
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// and as global variables. Because protected memory variables are globals, the
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// the same rules apply disallowing non-trivial constructors and destructors.
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// Global definitions are required to avoid the linker placing statics in
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// inlinable functions into a comdat section and setting the protected memory
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// section read-write when they are merged.
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//
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// EXAMPLE:
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//
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// struct Items { void* item1; };
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// static PROTECTED_MEMORY_SECTION ProtectedMemory<Items> items;
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// void InitializeItems() {
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// // Explicitly set items read-write before writing to it.
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// auto writer = AutoWritableMemory::Create(items);
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// items->item1 = /* ... */;
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// assert(items->item1 != nullptr);
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// // items is set back to read-only on the destruction of writer
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// }
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//
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// using FnPtr = void (*)(void);
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// PROTECTED_MEMORY_SECTION ProtectedMemory<FnPtr> fnPtr;
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// FnPtr ResolveFnPtr(void) {
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// // The Initializer nested class is a helper class for creating a static
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// // initializer for a ProtectedMemory variable. It implicitly sets the
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// // variable read-write during initialization.
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// static ProtectedMemory<FnPtr>::Initializer(&fnPtr,
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// reinterpret_cast<FnPtr>(dlsym(/* ... */)));
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// return *fnPtr;
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// }
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template <typename T>
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class ProtectedMemory {
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public:
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ProtectedMemory() = default;
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// Expose direct access to the encapsulated variable
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T& operator*() { return data; }
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const T& operator*() const { return data; }
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T* operator->() { return &data; }
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const T* operator->() const { return &data; }
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// Helper class for creating simple ProtectedMemory static initializers.
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class Initializer {
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public:
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// Defined out-of-line below to break circular definition dependency between
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// ProtectedMemory and AutoWritableMemory.
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Initializer(ProtectedMemory<T>* PM, const T& Init);
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DISALLOW_IMPLICIT_CONSTRUCTORS(Initializer);
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};
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private:
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T data;
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DISALLOW_COPY_AND_ASSIGN(ProtectedMemory);
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};
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// DCHECK that the byte at |ptr| is read-only.
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BASE_EXPORT void AssertMemoryIsReadOnly(const void* ptr);
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// Abstract out platform-specific methods to get the beginning and end of the
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// PROTECTED_MEMORY_SECTION. ProtectedMemoryEnd returns a pointer to the byte
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// past the end of the PROTECTED_MEMORY_SECTION.
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#if PROTECTED_MEMORY_ENABLED
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constexpr void* ProtectedMemoryStart = &__start_protected_memory;
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constexpr void* ProtectedMemoryEnd = &__stop_protected_memory;
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#endif
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#if defined(COMPONENT_BUILD)
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namespace internal {
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// For component builds we want to define a separate global writers variable
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// (explained below) in every DSO that includes this header. To do that we use
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// this template to define a global without duplicate symbol errors.
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template <typename T>
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struct DsoSpecific {
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static T value;
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};
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template <typename T>
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T DsoSpecific<T>::value = 0;
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} // namespace internal
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#endif // defined(COMPONENT_BUILD)
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// A class that sets a given ProtectedMemory variable writable while the
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// AutoWritableMemory is in scope. This class implements the logic for setting
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// the protected memory region read-only/read-write in a thread-safe manner.
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class AutoWritableMemory {
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private:
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// 'writers' is a global holding the number of ProtectedMemory instances set
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// writable, used to avoid races setting protected memory readable/writable.
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// When this reaches zero the protected memory region is set read only.
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// Access is controlled by writers_lock.
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#if defined(COMPONENT_BUILD)
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// For component builds writers is a reference to an int defined separately in
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// every DSO.
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static constexpr int& writers = internal::DsoSpecific<int>::value;
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#else
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// Otherwise, we declare writers in the protected memory section to avoid the
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// scenario where an attacker could overwrite it with a large value and invoke
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// code that constructs and destructs an AutoWritableMemory. After such a call
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// protected memory would still be set writable because writers > 0.
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static int writers;
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#endif // defined(COMPONENT_BUILD)
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// Synchronizes access to the writers variable and the simultaneous actions
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// that need to happen alongside writers changes, e.g. setting the protected
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// memory region readable when writers is decremented to 0.
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static BASE_EXPORT base::LazyInstance<Lock>::Leaky writers_lock;
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// Abstract out platform-specific memory APIs. |end| points to the byte past
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// the end of the region of memory having its memory protections changed.
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BASE_EXPORT bool SetMemoryReadWrite(void* start, void* end);
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BASE_EXPORT bool SetMemoryReadOnly(void* start, void* end);
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// If this is the first writer (e.g. writers == 0) set the writers variable
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// read-write. Next, increment writers and set the requested memory writable.
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AutoWritableMemory(void* ptr, void* ptr_end) {
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#if PROTECTED_MEMORY_ENABLED
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DCHECK(ptr >= ProtectedMemoryStart && ptr_end <= ProtectedMemoryEnd);
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{
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base::AutoLock auto_lock(writers_lock.Get());
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if (writers == 0) {
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AssertMemoryIsReadOnly(ptr);
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#if !defined(COMPONENT_BUILD)
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AssertMemoryIsReadOnly(&writers);
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CHECK(SetMemoryReadWrite(&writers, &writers + 1));
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#endif // !defined(COMPONENT_BUILD)
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}
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writers++;
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}
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CHECK(SetMemoryReadWrite(ptr, ptr_end));
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#endif // PROTECTED_MEMORY_ENABLED
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}
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public:
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// Wrap the private constructor to create an easy-to-use interface to
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// construct AutoWritableMemory objects.
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template <typename T>
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static AutoWritableMemory Create(ProtectedMemory<T>& PM) {
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T* ptr = &*PM;
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return AutoWritableMemory(ptr, ptr + 1);
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}
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// Move constructor just increments writers
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AutoWritableMemory(AutoWritableMemory&& original) {
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#if PROTECTED_MEMORY_ENABLED
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base::AutoLock auto_lock(writers_lock.Get());
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CHECK_GT(writers, 0);
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writers++;
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#endif // PROTECTED_MEMORY_ENABLED
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}
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// On destruction decrement writers, and if no other writers exist, set the
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// entire protected memory region read-only.
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~AutoWritableMemory() {
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#if PROTECTED_MEMORY_ENABLED
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base::AutoLock auto_lock(writers_lock.Get());
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CHECK_GT(writers, 0);
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writers--;
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if (writers == 0) {
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CHECK(SetMemoryReadOnly(ProtectedMemoryStart, ProtectedMemoryEnd));
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#if !defined(COMPONENT_BUILD)
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AssertMemoryIsReadOnly(&writers);
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#endif // !defined(COMPONENT_BUILD)
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}
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#endif // PROTECTED_MEMORY_ENABLED
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}
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DISALLOW_IMPLICIT_CONSTRUCTORS(AutoWritableMemory);
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};
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template <typename T>
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ProtectedMemory<T>::Initializer::Initializer(ProtectedMemory<T>* PM,
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const T& Init) {
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AutoWritableMemory writer = AutoWritableMemory::Create(*PM);
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**PM = Init;
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}
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} // namespace base
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#endif // BASE_MEMORY_PROTECTED_MEMORY_H_
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