spdy/core/spdy_header_block.h - quiche.git - Git at Google

 // Copyright (c) 2012 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.

 #ifndef QUICHE_SPDY_CORE_SPDY_HEADER_BLOCK_H_
 #define QUICHE_SPDY_CORE_SPDY_HEADER_BLOCK_H_

 #include <stddef.h>

 #include <list>
 #include <memory>
 #include <string>
 #include <utility>
 #include <vector>

 #include "net/third_party/quiche/src/spdy/platform/api/spdy_containers.h"
 #include "net/third_party/quiche/src/spdy/platform/api/spdy_export.h"
 #include "net/third_party/quiche/src/spdy/platform/api/spdy_macros.h"
 #include "net/third_party/quiche/src/spdy/platform/api/spdy_string_piece.h"

 namespace spdy {

 namespace test {
 class SpdyHeaderBlockPeer;
 class ValueProxyPeer;
 }  // namespace test

 // This class provides a key-value map that can be used to store SPDY header
 // names and values. This data structure preserves insertion order.
 //
 // Under the hood, this data structure uses large, contiguous blocks of memory
 // to store names and values. Lookups may be performed with SpdyStringPiece
 // keys, and values are returned as SpdyStringPieces (via ValueProxy, below).
 // Value SpdyStringPieces are valid as long as the SpdyHeaderBlock exists;
 // allocated memory is never freed until SpdyHeaderBlock's destruction.
 //
 // This implementation does not make much of an effort to minimize wasted space.
 // It's expected that keys are rarely deleted from a SpdyHeaderBlock.
 class SPDY_EXPORT_PRIVATE SpdyHeaderBlock {
  private:
   class Storage;

   // Stores a list of value fragments that can be joined later with a
   // key-dependent separator.
   class SPDY_EXPORT_PRIVATE HeaderValue {
    public:
     HeaderValue(Storage* storage,
                 SpdyStringPiece key,
                 SpdyStringPiece initial_value);

     // Moves are allowed.
     HeaderValue(HeaderValue&& other);
     HeaderValue& operator=(HeaderValue&& other);

     // Copies are not.
     HeaderValue(const HeaderValue& other) = delete;
     HeaderValue& operator=(const HeaderValue& other) = delete;

     ~HeaderValue();

     // Consumes at most |fragment.size()| bytes of memory.
     void Append(SpdyStringPiece fragment);

     SpdyStringPiece value() const { return as_pair().second; }
     const std::pair<SpdyStringPiece, SpdyStringPiece>& as_pair() const;

     // Size estimate including separators. Used when keys are erased from
     // SpdyHeaderBlock.
     size_t SizeEstimate() const { return size_; }

    private:
     // May allocate a large contiguous region of memory to hold the concatenated
     // fragments and separators.
     SpdyStringPiece ConsolidatedValue() const;

     mutable Storage* storage_;
     mutable std::vector<SpdyStringPiece> fragments_;
     // The first element is the key; the second is the consolidated value.
     mutable std::pair<SpdyStringPiece, SpdyStringPiece> pair_;
     size_t size_ = 0;
     size_t separator_size_ = 0;
   };

   typedef SpdyLinkedHashMap<SpdyStringPiece, HeaderValue, SpdyStringPieceHash>
       MapType;

  public:
   typedef std::pair<SpdyStringPiece, SpdyStringPiece> value_type;

   // Provides iteration over a sequence of std::pair<SpdyStringPiece,
   // SpdyStringPiece>, even though the underlying MapType::value_type is
   // different. Dereferencing the iterator will result in memory allocation for
   // multi-value headers.
   class SPDY_EXPORT_PRIVATE iterator {
    public:
     // The following type definitions fulfill the requirements for iterator
     // implementations.
     typedef std::pair<SpdyStringPiece, SpdyStringPiece> value_type;
     typedef value_type& reference;
     typedef value_type* pointer;
     typedef std::forward_iterator_tag iterator_category;
     typedef MapType::iterator::difference_type difference_type;

     // In practice, this iterator only offers access to const value_type.
     typedef const value_type& const_reference;
     typedef const value_type* const_pointer;

     explicit iterator(MapType::const_iterator it);
     iterator(const iterator& other);
     ~iterator();

     // This will result in memory allocation if the value consists of multiple
     // fragments.
     const_reference operator*() const { return it_->second.as_pair(); }

     const_pointer operator->() const { return &(this->operator*()); }
     bool operator==(const iterator& it) const { return it_ == it.it_; }
     bool operator!=(const iterator& it) const { return !(*this == it); }

     iterator& operator++() {
       it_++;
       return *this;
     }

     iterator operator++(int) {
       auto ret = *this;
       this->operator++();
       return ret;
     }

    private:
     MapType::const_iterator it_;
   };
   typedef iterator const_iterator;

   class ValueProxy;

   SpdyHeaderBlock();
   SpdyHeaderBlock(const SpdyHeaderBlock& other) = delete;
   SpdyHeaderBlock(SpdyHeaderBlock&& other);
   ~SpdyHeaderBlock();

   SpdyHeaderBlock& operator=(const SpdyHeaderBlock& other) = delete;
   SpdyHeaderBlock& operator=(SpdyHeaderBlock&& other);
   SpdyHeaderBlock Clone() const;

   bool operator==(const SpdyHeaderBlock& other) const;
   bool operator!=(const SpdyHeaderBlock& other) const;

   // Provides a human readable multi-line representation of the stored header
   // keys and values.
   std::string DebugString() const;

   iterator begin() { return iterator(block_.begin()); }
   iterator end() { return iterator(block_.end()); }
   const_iterator begin() const { return const_iterator(block_.begin()); }
   const_iterator end() const { return const_iterator(block_.end()); }
   bool empty() const { return block_.empty(); }
   size_t size() const { return block_.size(); }
   iterator find(SpdyStringPiece key) { return iterator(block_.find(key)); }
   const_iterator find(SpdyStringPiece key) const {
     return const_iterator(block_.find(key));
   }
   void erase(SpdyStringPiece key);

   // Clears both our MapType member and the memory used to hold headers.
   void clear();

   // The next few methods copy data into our backing storage.

   // If key already exists in the block, replaces the value of that key. Else
   // adds a new header to the end of the block.
   void insert(const value_type& value);

   // If a header with the key is already present, then append the value to the
   // existing header value, NUL ("\0") separated unless the key is cookie, in
   // which case the separator is "; ".
   // If there is no such key, a new header with the key and value is added.
   void AppendValueOrAddHeader(const SpdyStringPiece key,
                               const SpdyStringPiece value);

   // Allows either lookup or mutation of the value associated with a key.
   SPDY_MUST_USE_RESULT ValueProxy operator[](const SpdyStringPiece key);

   // This object provides automatic conversions that allow SpdyHeaderBlock to be
   // nearly a drop-in replacement for
   // SpdyLinkedHashMap<std::string, std::string>.
   // It reads data from or writes data to a SpdyHeaderBlock::Storage.
   class SPDY_EXPORT_PRIVATE ValueProxy {
    public:
     ~ValueProxy();

     // Moves are allowed.
     ValueProxy(ValueProxy&& other);
     ValueProxy& operator=(ValueProxy&& other);

     // Copies are not.
     ValueProxy(const ValueProxy& other) = delete;
     ValueProxy& operator=(const ValueProxy& other) = delete;

     // Assignment modifies the underlying SpdyHeaderBlock.
     ValueProxy& operator=(const SpdyStringPiece other);

     std::string as_string() const;

    private:
     friend class SpdyHeaderBlock;
     friend class test::ValueProxyPeer;

     ValueProxy(SpdyHeaderBlock::MapType* block,
                SpdyHeaderBlock::Storage* storage,
                SpdyHeaderBlock::MapType::iterator lookup_result,
                const SpdyStringPiece key,
                size_t* spdy_header_block_value_size);

     SpdyHeaderBlock::MapType* block_;
     SpdyHeaderBlock::Storage* storage_;
     SpdyHeaderBlock::MapType::iterator lookup_result_;
     SpdyStringPiece key_;
     size_t* spdy_header_block_value_size_;
     bool valid_;
   };

   // Returns the estimate of dynamically allocated memory in bytes.
   size_t EstimateMemoryUsage() const;

   size_t TotalBytesUsed() const { return key_size_ + value_size_; }

  private:
   friend class test::SpdyHeaderBlockPeer;

   void AppendHeader(const SpdyStringPiece key, const SpdyStringPiece value);
   Storage* GetStorage();
   SpdyStringPiece WriteKey(const SpdyStringPiece key);
   size_t bytes_allocated() const;

   // SpdyStringPieces held by |block_| point to memory owned by |*storage_|.
   // |storage_| might be nullptr as long as |block_| is empty.
   MapType block_;
   std::unique_ptr<Storage> storage_;

   size_t key_size_ = 0;
   size_t value_size_ = 0;
 };

 // Writes |fragments| to |dst|, joined by |separator|. |dst| must be large
 // enough to hold the result. Returns the number of bytes written.
 SPDY_EXPORT_PRIVATE size_t Join(char* dst,
                                 const std::vector<SpdyStringPiece>& fragments,
                                 SpdyStringPiece separator);

 }  // namespace spdy

 #endif  // QUICHE_SPDY_CORE_SPDY_HEADER_BLOCK_H_
	// Copyright (c) 2012 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.

	#ifndef QUICHE_SPDY_CORE_SPDY_HEADER_BLOCK_H_
	#define QUICHE_SPDY_CORE_SPDY_HEADER_BLOCK_H_

	#include <stddef.h>

	#include <list>
	#include <memory>
	#include <string>
	#include <utility>
	#include <vector>

	#include "net/third_party/quiche/src/spdy/platform/api/spdy_containers.h"
	#include "net/third_party/quiche/src/spdy/platform/api/spdy_export.h"
	#include "net/third_party/quiche/src/spdy/platform/api/spdy_macros.h"
	#include "net/third_party/quiche/src/spdy/platform/api/spdy_string_piece.h"

	namespace spdy {

	namespace test {
	class SpdyHeaderBlockPeer;
	class ValueProxyPeer;
	} // namespace test

	// This class provides a key-value map that can be used to store SPDY header
	// names and values. This data structure preserves insertion order.
	//
	// Under the hood, this data structure uses large, contiguous blocks of memory
	// to store names and values. Lookups may be performed with SpdyStringPiece
	// keys, and values are returned as SpdyStringPieces (via ValueProxy, below).
	// Value SpdyStringPieces are valid as long as the SpdyHeaderBlock exists;
	// allocated memory is never freed until SpdyHeaderBlock's destruction.
	//
	// This implementation does not make much of an effort to minimize wasted space.
	// It's expected that keys are rarely deleted from a SpdyHeaderBlock.
	class SPDY_EXPORT_PRIVATE SpdyHeaderBlock {
	private:
	class Storage;

	// Stores a list of value fragments that can be joined later with a
	// key-dependent separator.
	class SPDY_EXPORT_PRIVATE HeaderValue {
	public:
	HeaderValue(Storage* storage,
	SpdyStringPiece key,
	SpdyStringPiece initial_value);

	// Moves are allowed.
	HeaderValue(HeaderValue&& other);
	HeaderValue& operator=(HeaderValue&& other);

	// Copies are not.
	HeaderValue(const HeaderValue& other) = delete;
	HeaderValue& operator=(const HeaderValue& other) = delete;

	~HeaderValue();

	// Consumes at most \|fragment.size()\| bytes of memory.
	void Append(SpdyStringPiece fragment);

	SpdyStringPiece value() const { return as_pair().second; }
	const std::pair<SpdyStringPiece, SpdyStringPiece>& as_pair() const;

	// Size estimate including separators. Used when keys are erased from
	// SpdyHeaderBlock.
	size_t SizeEstimate() const { return size_; }

	private:
	// May allocate a large contiguous region of memory to hold the concatenated
	// fragments and separators.
	SpdyStringPiece ConsolidatedValue() const;

	mutable Storage* storage_;
	mutable std::vector<SpdyStringPiece> fragments_;
	// The first element is the key; the second is the consolidated value.
	mutable std::pair<SpdyStringPiece, SpdyStringPiece> pair_;
	size_t size_ = 0;
	size_t separator_size_ = 0;
	};

	typedef SpdyLinkedHashMap<SpdyStringPiece, HeaderValue, SpdyStringPieceHash>
	MapType;

	public:
	typedef std::pair<SpdyStringPiece, SpdyStringPiece> value_type;

	// Provides iteration over a sequence of std::pair<SpdyStringPiece,
	// SpdyStringPiece>, even though the underlying MapType::value_type is
	// different. Dereferencing the iterator will result in memory allocation for
	// multi-value headers.
	class SPDY_EXPORT_PRIVATE iterator {
	public:
	// The following type definitions fulfill the requirements for iterator
	// implementations.
	typedef std::pair<SpdyStringPiece, SpdyStringPiece> value_type;
	typedef value_type& reference;
	typedef value_type* pointer;
	typedef std::forward_iterator_tag iterator_category;
	typedef MapType::iterator::difference_type difference_type;

	// In practice, this iterator only offers access to const value_type.
	typedef const value_type& const_reference;
	typedef const value_type* const_pointer;

	explicit iterator(MapType::const_iterator it);
	iterator(const iterator& other);
	~iterator();

	// This will result in memory allocation if the value consists of multiple
	// fragments.
	const_reference operator*() const { return it_->second.as_pair(); }

	const_pointer operator->() const { return &(this->operator*()); }
	bool operator==(const iterator& it) const { return it_ == it.it_; }
	bool operator!=(const iterator& it) const { return !(*this == it); }

	iterator& operator++() {
	it_++;
	return *this;
	}

	iterator operator++(int) {
	auto ret = *this;
	this->operator++();
	return ret;
	}

	private:
	MapType::const_iterator it_;
	};
	typedef iterator const_iterator;

	class ValueProxy;

	SpdyHeaderBlock();
	SpdyHeaderBlock(const SpdyHeaderBlock& other) = delete;
	SpdyHeaderBlock(SpdyHeaderBlock&& other);
	~SpdyHeaderBlock();

	SpdyHeaderBlock& operator=(const SpdyHeaderBlock& other) = delete;
	SpdyHeaderBlock& operator=(SpdyHeaderBlock&& other);
	SpdyHeaderBlock Clone() const;

	bool operator==(const SpdyHeaderBlock& other) const;
	bool operator!=(const SpdyHeaderBlock& other) const;

	// Provides a human readable multi-line representation of the stored header
	// keys and values.
	std::string DebugString() const;

	iterator begin() { return iterator(block_.begin()); }
	iterator end() { return iterator(block_.end()); }
	const_iterator begin() const { return const_iterator(block_.begin()); }
	const_iterator end() const { return const_iterator(block_.end()); }
	bool empty() const { return block_.empty(); }
	size_t size() const { return block_.size(); }
	iterator find(SpdyStringPiece key) { return iterator(block_.find(key)); }
	const_iterator find(SpdyStringPiece key) const {
	return const_iterator(block_.find(key));
	}
	void erase(SpdyStringPiece key);

	// Clears both our MapType member and the memory used to hold headers.
	void clear();

	// The next few methods copy data into our backing storage.

	// If key already exists in the block, replaces the value of that key. Else
	// adds a new header to the end of the block.
	void insert(const value_type& value);

	// If a header with the key is already present, then append the value to the
	// existing header value, NUL ("\0") separated unless the key is cookie, in
	// which case the separator is "; ".
	// If there is no such key, a new header with the key and value is added.
	void AppendValueOrAddHeader(const SpdyStringPiece key,
	const SpdyStringPiece value);

	// Allows either lookup or mutation of the value associated with a key.
	SPDY_MUST_USE_RESULT ValueProxy operator[](const SpdyStringPiece key);

	// This object provides automatic conversions that allow SpdyHeaderBlock to be
	// nearly a drop-in replacement for
	// SpdyLinkedHashMap<std::string, std::string>.
	// It reads data from or writes data to a SpdyHeaderBlock::Storage.
	class SPDY_EXPORT_PRIVATE ValueProxy {
	public:
	~ValueProxy();

	// Moves are allowed.
	ValueProxy(ValueProxy&& other);
	ValueProxy& operator=(ValueProxy&& other);

	// Copies are not.
	ValueProxy(const ValueProxy& other) = delete;
	ValueProxy& operator=(const ValueProxy& other) = delete;

	// Assignment modifies the underlying SpdyHeaderBlock.
	ValueProxy& operator=(const SpdyStringPiece other);

	std::string as_string() const;

	private:
	friend class SpdyHeaderBlock;
	friend class test::ValueProxyPeer;

	ValueProxy(SpdyHeaderBlock::MapType* block,
	SpdyHeaderBlock::Storage* storage,
	SpdyHeaderBlock::MapType::iterator lookup_result,
	const SpdyStringPiece key,
	size_t* spdy_header_block_value_size);

	SpdyHeaderBlock::MapType* block_;
	SpdyHeaderBlock::Storage* storage_;
	SpdyHeaderBlock::MapType::iterator lookup_result_;
	SpdyStringPiece key_;
	size_t* spdy_header_block_value_size_;
	bool valid_;
	};

	// Returns the estimate of dynamically allocated memory in bytes.
	size_t EstimateMemoryUsage() const;

	size_t TotalBytesUsed() const { return key_size_ + value_size_; }

	private:
	friend class test::SpdyHeaderBlockPeer;

	void AppendHeader(const SpdyStringPiece key, const SpdyStringPiece value);
	Storage* GetStorage();
	SpdyStringPiece WriteKey(const SpdyStringPiece key);
	size_t bytes_allocated() const;

	// SpdyStringPieces held by \|block_\| point to memory owned by \|*storage_\|.
	// \|storage_\| might be nullptr as long as \|block_\| is empty.
	MapType block_;
	std::unique_ptr<Storage> storage_;

	size_t key_size_ = 0;
	size_t value_size_ = 0;
	};

	// Writes \|fragments\| to \|dst\|, joined by \|separator\|. \|dst\| must be large
	// enough to hold the result. Returns the number of bytes written.
	SPDY_EXPORT_PRIVATE size_t Join(char* dst,
	const std::vector<SpdyStringPiece>& fragments,
	SpdyStringPiece separator);

	} // namespace spdy

	#endif // QUICHE_SPDY_CORE_SPDY_HEADER_BLOCK_H_