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436 lines
12 KiB
C++
436 lines
12 KiB
C++
// Copyright (c) 2012 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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#include "base/pickle.h"
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#include <stdlib.h>
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#include <algorithm> // for max()
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#include <limits>
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#include "base/bits.h"
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#include "base/macros.h"
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#include "base/numerics/safe_conversions.h"
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#include "base/numerics/safe_math.h"
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#include "build/build_config.h"
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namespace base {
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// static
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const int Pickle::kPayloadUnit = 64;
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static const size_t kCapacityReadOnly = static_cast<size_t>(-1);
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PickleIterator::PickleIterator(const Pickle& pickle)
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: payload_(pickle.payload()),
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read_index_(0),
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end_index_(pickle.payload_size()) {
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}
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template <typename Type>
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inline bool PickleIterator::ReadBuiltinType(Type* result) {
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const char* read_from = GetReadPointerAndAdvance<Type>();
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if (!read_from)
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return false;
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if (sizeof(Type) > sizeof(uint32_t))
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memcpy(result, read_from, sizeof(*result));
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else
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*result = *reinterpret_cast<const Type*>(read_from);
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return true;
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}
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inline void PickleIterator::Advance(size_t size) {
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size_t aligned_size = bits::Align(size, sizeof(uint32_t));
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if (end_index_ - read_index_ < aligned_size) {
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read_index_ = end_index_;
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} else {
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read_index_ += aligned_size;
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}
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}
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template<typename Type>
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inline const char* PickleIterator::GetReadPointerAndAdvance() {
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if (sizeof(Type) > end_index_ - read_index_) {
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read_index_ = end_index_;
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return NULL;
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}
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const char* current_read_ptr = payload_ + read_index_;
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Advance(sizeof(Type));
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return current_read_ptr;
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}
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const char* PickleIterator::GetReadPointerAndAdvance(int num_bytes) {
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if (num_bytes < 0 ||
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end_index_ - read_index_ < static_cast<size_t>(num_bytes)) {
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read_index_ = end_index_;
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return NULL;
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}
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const char* current_read_ptr = payload_ + read_index_;
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Advance(num_bytes);
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return current_read_ptr;
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}
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inline const char* PickleIterator::GetReadPointerAndAdvance(
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int num_elements,
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size_t size_element) {
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// Check for int32_t overflow.
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int num_bytes;
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if (!CheckMul(num_elements, size_element).AssignIfValid(&num_bytes))
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return NULL;
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return GetReadPointerAndAdvance(num_bytes);
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}
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bool PickleIterator::ReadBool(bool* result) {
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return ReadBuiltinType(result);
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}
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bool PickleIterator::ReadInt(int* result) {
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return ReadBuiltinType(result);
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}
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bool PickleIterator::ReadLong(long* result) {
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// Always read long as a 64-bit value to ensure compatibility between 32-bit
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// and 64-bit processes.
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int64_t result_int64 = 0;
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if (!ReadBuiltinType(&result_int64))
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return false;
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// CHECK if the cast truncates the value so that we know to change this IPC
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// parameter to use int64_t.
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*result = base::checked_cast<long>(result_int64);
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return true;
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}
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bool PickleIterator::ReadUInt16(uint16_t* result) {
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return ReadBuiltinType(result);
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}
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bool PickleIterator::ReadUInt32(uint32_t* result) {
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return ReadBuiltinType(result);
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}
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bool PickleIterator::ReadInt64(int64_t* result) {
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return ReadBuiltinType(result);
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}
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bool PickleIterator::ReadUInt64(uint64_t* result) {
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return ReadBuiltinType(result);
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}
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bool PickleIterator::ReadFloat(float* result) {
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// crbug.com/315213
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// The source data may not be properly aligned, and unaligned float reads
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// cause SIGBUS on some ARM platforms, so force using memcpy to copy the data
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// into the result.
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const char* read_from = GetReadPointerAndAdvance<float>();
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if (!read_from)
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return false;
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memcpy(result, read_from, sizeof(*result));
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return true;
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}
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bool PickleIterator::ReadDouble(double* result) {
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// crbug.com/315213
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// The source data may not be properly aligned, and unaligned double reads
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// cause SIGBUS on some ARM platforms, so force using memcpy to copy the data
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// into the result.
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const char* read_from = GetReadPointerAndAdvance<double>();
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if (!read_from)
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return false;
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memcpy(result, read_from, sizeof(*result));
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return true;
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}
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bool PickleIterator::ReadString(std::string* result) {
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int len;
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if (!ReadInt(&len))
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return false;
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const char* read_from = GetReadPointerAndAdvance(len);
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if (!read_from)
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return false;
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result->assign(read_from, len);
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return true;
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}
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bool PickleIterator::ReadStringPiece(StringPiece* result) {
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int len;
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if (!ReadInt(&len))
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return false;
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const char* read_from = GetReadPointerAndAdvance(len);
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if (!read_from)
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return false;
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*result = StringPiece(read_from, len);
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return true;
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}
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bool PickleIterator::ReadString16(string16* result) {
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int len;
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if (!ReadInt(&len))
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return false;
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const char* read_from = GetReadPointerAndAdvance(len, sizeof(char16));
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if (!read_from)
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return false;
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result->assign(reinterpret_cast<const char16*>(read_from), len);
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return true;
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}
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bool PickleIterator::ReadStringPiece16(StringPiece16* result) {
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int len;
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if (!ReadInt(&len))
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return false;
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const char* read_from = GetReadPointerAndAdvance(len, sizeof(char16));
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if (!read_from)
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return false;
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*result = StringPiece16(reinterpret_cast<const char16*>(read_from), len);
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return true;
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}
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bool PickleIterator::ReadData(const char** data, int* length) {
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*length = 0;
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*data = 0;
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if (!ReadInt(length))
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return false;
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return ReadBytes(data, *length);
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}
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bool PickleIterator::ReadBytes(const char** data, int length) {
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const char* read_from = GetReadPointerAndAdvance(length);
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if (!read_from)
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return false;
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*data = read_from;
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return true;
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}
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Pickle::Attachment::Attachment() {}
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Pickle::Attachment::~Attachment() {}
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// Payload is uint32_t aligned.
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Pickle::Pickle()
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: header_(NULL),
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header_size_(sizeof(Header)),
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capacity_after_header_(0),
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write_offset_(0) {
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static_assert((Pickle::kPayloadUnit & (Pickle::kPayloadUnit - 1)) == 0,
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"Pickle::kPayloadUnit must be a power of two");
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Resize(kPayloadUnit);
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header_->payload_size = 0;
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}
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Pickle::Pickle(int header_size)
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: header_(NULL),
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header_size_(bits::Align(header_size, sizeof(uint32_t))),
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capacity_after_header_(0),
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write_offset_(0) {
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DCHECK_GE(static_cast<size_t>(header_size), sizeof(Header));
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DCHECK_LE(header_size, kPayloadUnit);
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Resize(kPayloadUnit);
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header_->payload_size = 0;
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}
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Pickle::Pickle(const char* data, int data_len)
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: header_(reinterpret_cast<Header*>(const_cast<char*>(data))),
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header_size_(0),
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capacity_after_header_(kCapacityReadOnly),
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write_offset_(0) {
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if (data_len >= static_cast<int>(sizeof(Header)))
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header_size_ = data_len - header_->payload_size;
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if (header_size_ > static_cast<unsigned int>(data_len))
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header_size_ = 0;
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if (header_size_ != bits::Align(header_size_, sizeof(uint32_t)))
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header_size_ = 0;
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// If there is anything wrong with the data, we're not going to use it.
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if (!header_size_)
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header_ = NULL;
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}
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Pickle::Pickle(const Pickle& other)
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: header_(NULL),
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header_size_(other.header_size_),
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capacity_after_header_(0),
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write_offset_(other.write_offset_) {
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Resize(other.header_->payload_size);
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memcpy(header_, other.header_, header_size_ + other.header_->payload_size);
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}
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Pickle::~Pickle() {
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if (capacity_after_header_ != kCapacityReadOnly)
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free(header_);
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}
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Pickle& Pickle::operator=(const Pickle& other) {
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if (this == &other) {
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return *this;
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}
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if (capacity_after_header_ == kCapacityReadOnly) {
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header_ = NULL;
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capacity_after_header_ = 0;
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}
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if (header_size_ != other.header_size_) {
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free(header_);
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header_ = NULL;
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header_size_ = other.header_size_;
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}
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Resize(other.header_->payload_size);
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memcpy(header_, other.header_,
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other.header_size_ + other.header_->payload_size);
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write_offset_ = other.write_offset_;
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return *this;
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}
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void Pickle::WriteString(const StringPiece& value) {
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WriteInt(static_cast<int>(value.size()));
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WriteBytes(value.data(), static_cast<int>(value.size()));
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}
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void Pickle::WriteString16(const StringPiece16& value) {
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WriteInt(static_cast<int>(value.size()));
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WriteBytes(value.data(), static_cast<int>(value.size()) * sizeof(char16));
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}
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void Pickle::WriteData(const char* data, int length) {
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DCHECK_GE(length, 0);
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WriteInt(length);
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WriteBytes(data, length);
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}
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void Pickle::WriteBytes(const void* data, int length) {
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WriteBytesCommon(data, length);
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}
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void Pickle::Reserve(size_t length) {
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size_t data_len = bits::Align(length, sizeof(uint32_t));
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DCHECK_GE(data_len, length);
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#ifdef ARCH_CPU_64_BITS
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DCHECK_LE(data_len, std::numeric_limits<uint32_t>::max());
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#endif
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DCHECK_LE(write_offset_, std::numeric_limits<uint32_t>::max() - data_len);
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size_t new_size = write_offset_ + data_len;
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if (new_size > capacity_after_header_)
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Resize(capacity_after_header_ * 2 + new_size);
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}
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bool Pickle::WriteAttachment(scoped_refptr<Attachment> attachment) {
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return false;
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}
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bool Pickle::ReadAttachment(base::PickleIterator* iter,
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scoped_refptr<Attachment>* attachment) const {
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return false;
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}
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bool Pickle::HasAttachments() const {
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return false;
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}
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void Pickle::Resize(size_t new_capacity) {
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CHECK_NE(capacity_after_header_, kCapacityReadOnly);
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capacity_after_header_ = bits::Align(new_capacity, kPayloadUnit);
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void* p = realloc(header_, GetTotalAllocatedSize());
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CHECK(p);
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header_ = reinterpret_cast<Header*>(p);
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}
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void* Pickle::ClaimBytes(size_t num_bytes) {
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void* p = ClaimUninitializedBytesInternal(num_bytes);
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CHECK(p);
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memset(p, 0, num_bytes);
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return p;
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}
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size_t Pickle::GetTotalAllocatedSize() const {
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if (capacity_after_header_ == kCapacityReadOnly)
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return 0;
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return header_size_ + capacity_after_header_;
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}
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// static
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const char* Pickle::FindNext(size_t header_size,
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const char* start,
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const char* end) {
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size_t pickle_size = 0;
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if (!PeekNext(header_size, start, end, &pickle_size))
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return NULL;
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if (pickle_size > static_cast<size_t>(end - start))
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return NULL;
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return start + pickle_size;
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}
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// static
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bool Pickle::PeekNext(size_t header_size,
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const char* start,
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const char* end,
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size_t* pickle_size) {
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DCHECK_EQ(header_size, bits::Align(header_size, sizeof(uint32_t)));
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DCHECK_GE(header_size, sizeof(Header));
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DCHECK_LE(header_size, static_cast<size_t>(kPayloadUnit));
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size_t length = static_cast<size_t>(end - start);
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if (length < sizeof(Header))
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return false;
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const Header* hdr = reinterpret_cast<const Header*>(start);
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if (length < header_size)
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return false;
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// If payload_size causes an overflow, we return maximum possible
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// pickle size to indicate that.
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*pickle_size = ClampAdd(header_size, hdr->payload_size);
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return true;
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}
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template <size_t length> void Pickle::WriteBytesStatic(const void* data) {
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WriteBytesCommon(data, length);
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}
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template void Pickle::WriteBytesStatic<2>(const void* data);
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template void Pickle::WriteBytesStatic<4>(const void* data);
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template void Pickle::WriteBytesStatic<8>(const void* data);
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inline void* Pickle::ClaimUninitializedBytesInternal(size_t length) {
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DCHECK_NE(kCapacityReadOnly, capacity_after_header_)
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<< "oops: pickle is readonly";
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size_t data_len = bits::Align(length, sizeof(uint32_t));
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DCHECK_GE(data_len, length);
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#ifdef ARCH_CPU_64_BITS
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DCHECK_LE(data_len, std::numeric_limits<uint32_t>::max());
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#endif
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DCHECK_LE(write_offset_, std::numeric_limits<uint32_t>::max() - data_len);
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size_t new_size = write_offset_ + data_len;
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if (new_size > capacity_after_header_) {
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size_t new_capacity = capacity_after_header_ * 2;
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const size_t kPickleHeapAlign = 4096;
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if (new_capacity > kPickleHeapAlign)
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new_capacity = bits::Align(new_capacity, kPickleHeapAlign) - kPayloadUnit;
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Resize(std::max(new_capacity, new_size));
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}
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char* write = mutable_payload() + write_offset_;
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memset(write + length, 0, data_len - length); // Always initialize padding
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header_->payload_size = static_cast<uint32_t>(new_size);
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write_offset_ = new_size;
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return write;
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}
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inline void Pickle::WriteBytesCommon(const void* data, size_t length) {
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DCHECK_NE(kCapacityReadOnly, capacity_after_header_)
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<< "oops: pickle is readonly";
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MSAN_CHECK_MEM_IS_INITIALIZED(data, length);
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void* write = ClaimUninitializedBytesInternal(length);
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memcpy(write, data, length);
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}
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} // namespace base
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