boost/beast/http/fields.hpp
// // Copyright (c) 2016-2019 Vinnie Falco (vinnie dot falco at gmail dot com) // // Distributed under the Boost Software License, Version 1.0. (See accompanying // file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) // // Official repository: https://github.com/boostorg/beast // #ifndef BOOST_BEAST_HTTP_FIELDS_HPP #define BOOST_BEAST_HTTP_FIELDS_HPP #include <boost/beast/core/detail/config.hpp> #include <boost/beast/core/string.hpp> #include <boost/beast/core/detail/allocator.hpp> #include <boost/beast/http/field.hpp> #include <boost/asio/buffer.hpp> #include <boost/core/empty_value.hpp> #include <boost/intrusive/list.hpp> #include <boost/intrusive/set.hpp> #include <boost/optional.hpp> #include <algorithm> #include <cctype> #include <cstring> #include <memory> #include <string> #include <type_traits> #include <utility> namespace boost { namespace beast { namespace http { /** A container for storing HTTP header fields. This container is designed to store the field value pairs that make up the fields and trailers in an HTTP message. Objects of this type are iterable, with each element holding the field name and field value. Field names are stored as-is, but comparisons are case-insensitive. The container behaves as a `std::multiset`; there will be a separate value for each occurrence of the same field name. When the container is iterated the fields are presented in the order of insertion, with fields having the same name following each other consecutively. Meets the requirements of <em>Fields</em> @tparam Allocator The allocator to use. */ template<class Allocator> class basic_fields #if ! BOOST_BEAST_DOXYGEN : private boost::empty_value<Allocator> #endif { // Fancy pointers are not supported static_assert(std::is_pointer<typename std::allocator_traits<Allocator>::pointer>::value, "Allocator must use regular pointers"); #ifndef BOOST_BEAST_DOXYGEN friend class fields_test; // for `header` #endif struct element; using off_t = std::uint16_t; public: /// The type of allocator used. using allocator_type = Allocator; /// The type of element used to represent a field class value_type { #ifndef BOOST_BEAST_DOXYGEN friend class basic_fields; #endif off_t off_; off_t len_; field f_; char* data() const; net::const_buffer buffer() const; protected: value_type(field name, string_view sname, string_view value); public: /// Constructor (deleted) value_type(value_type const&) = delete; /// Assignment (deleted) value_type& operator=(value_type const&) = delete; /// Returns the field enum, which can be @ref boost::beast::http::field::unknown field name() const; /// Returns the field name as a string string_view const name_string() const; /// Returns the value of the field string_view const value() const; }; /** A strictly less predicate for comparing keys, using a case-insensitive comparison. The case-comparison operation is defined only for low-ASCII characters. */ #if BOOST_BEAST_DOXYGEN using key_compare = __implementation_defined__; #else struct key_compare : beast::iless #endif { /// Returns `true` if lhs is less than rhs using a strict ordering bool operator()( string_view lhs, value_type const& rhs) const noexcept { if(lhs.size() < rhs.name_string().size()) return true; if(lhs.size() > rhs.name_string().size()) return false; return iless::operator()(lhs, rhs.name_string()); } /// Returns `true` if lhs is less than rhs using a strict ordering bool operator()( value_type const& lhs, string_view rhs) const noexcept { if(lhs.name_string().size() < rhs.size()) return true; if(lhs.name_string().size() > rhs.size()) return false; return iless::operator()(lhs.name_string(), rhs); } /// Returns `true` if lhs is less than rhs using a strict ordering bool operator()( value_type const& lhs, value_type const& rhs) const noexcept { if(lhs.name_string().size() < rhs.name_string().size()) return true; if(lhs.name_string().size() > rhs.name_string().size()) return false; return iless::operator()(lhs.name_string(), rhs.name_string()); } }; /// The algorithm used to serialize the header #if BOOST_BEAST_DOXYGEN using writer = __implementation_defined__; #else class writer; #endif private: struct element : public boost::intrusive::list_base_hook< boost::intrusive::link_mode< boost::intrusive::normal_link>> , public boost::intrusive::set_base_hook< boost::intrusive::link_mode< boost::intrusive::normal_link>> , public value_type { element(field name, string_view sname, string_view value); }; using list_t = typename boost::intrusive::make_list< element, boost::intrusive::constant_time_size<false> >::type; using set_t = typename boost::intrusive::make_multiset< element, boost::intrusive::constant_time_size<false>, boost::intrusive::compare<key_compare> >::type; using align_type = typename boost::type_with_alignment<alignof(element)>::type; using rebind_type = typename beast::detail::allocator_traits<Allocator>:: template rebind_alloc<align_type>; using alloc_traits = beast::detail::allocator_traits<rebind_type>; using size_type = typename beast::detail::allocator_traits<Allocator>::size_type; public: /// Destructor ~basic_fields(); /// Constructor. basic_fields() = default; /** Constructor. @param alloc The allocator to use. */ explicit basic_fields(Allocator const& alloc) noexcept; /** Move constructor. The state of the moved-from object is as if constructed using the same allocator. */ basic_fields(basic_fields&&) noexcept; /** Move constructor. The state of the moved-from object is as if constructed using the same allocator. @param alloc The allocator to use. */ basic_fields(basic_fields&&, Allocator const& alloc); /// Copy constructor. basic_fields(basic_fields const&); /** Copy constructor. @param alloc The allocator to use. */ basic_fields(basic_fields const&, Allocator const& alloc); /// Copy constructor. template<class OtherAlloc> basic_fields(basic_fields<OtherAlloc> const&); /** Copy constructor. @param alloc The allocator to use. */ template<class OtherAlloc> basic_fields(basic_fields<OtherAlloc> const&, Allocator const& alloc); /** Move assignment. The state of the moved-from object is as if constructed using the same allocator. */ basic_fields& operator=(basic_fields&&) noexcept( alloc_traits::propagate_on_container_move_assignment::value); /// Copy assignment. basic_fields& operator=(basic_fields const&); /// Copy assignment. template<class OtherAlloc> basic_fields& operator=(basic_fields<OtherAlloc> const&); public: /// A constant iterator to the field sequence. #if BOOST_BEAST_DOXYGEN using const_iterator = __implementation_defined__; #else using const_iterator = typename list_t::const_iterator; #endif /// A constant iterator to the field sequence. using iterator = const_iterator; /// Return a copy of the allocator associated with the container. allocator_type get_allocator() const { return this->get(); } //-------------------------------------------------------------------------- // // Element access // //-------------------------------------------------------------------------- /** Returns the value for a field, or throws an exception. If more than one field with the specified name exists, the first field defined by insertion order is returned. @param name The name of the field. @return The field value. @throws std::out_of_range if the field is not found. */ string_view const at(field name) const; /** Returns the value for a field, or throws an exception. If more than one field with the specified name exists, the first field defined by insertion order is returned. @param name The name of the field. It is interpreted as a case-insensitive string. @return The field value. @throws std::out_of_range if the field is not found. */ string_view const at(string_view name) const; /** Returns the value for a field, or `""` if it does not exist. If more than one field with the specified name exists, the first field defined by insertion order is returned. @param name The name of the field. */ string_view const operator[](field name) const; /** Returns the value for a case-insensitive matching header, or `""` if it does not exist. If more than one field with the specified name exists, the first field defined by insertion order is returned. @param name The name of the field. It is interpreted as a case-insensitive string. */ string_view const operator[](string_view name) const; //-------------------------------------------------------------------------- // // Iterators // //-------------------------------------------------------------------------- /// Return a const iterator to the beginning of the field sequence. const_iterator begin() const { return list_.cbegin(); } /// Return a const iterator to the end of the field sequence. const_iterator end() const { return list_.cend(); } /// Return a const iterator to the beginning of the field sequence. const_iterator cbegin() const { return list_.cbegin(); } /// Return a const iterator to the end of the field sequence. const_iterator cend() const { return list_.cend(); } //-------------------------------------------------------------------------- // // Capacity // //-------------------------------------------------------------------------- private: // VFALCO Since the header and message derive from Fields, // what does the expression m.empty() mean? Its confusing. bool empty() const { return list_.empty(); } public: //-------------------------------------------------------------------------- // // Modifiers // //-------------------------------------------------------------------------- /** Remove all fields from the container All references, pointers, or iterators referring to contained elements are invalidated. All past-the-end iterators are also invalidated. @par Postconditions: @code std::distance(this->begin(), this->end()) == 0 @endcode */ void clear(); /** Insert a field. If one or more fields with the same name already exist, the new field will be inserted after the last field with the matching name, in serialization order. The value can be an empty string. @param name The field name. @param value The value of the field, as a @ref boost::beast::string_view */ void insert(field name, string_view const& value); /* Set a field from a null pointer (deleted). */ void insert(field, std::nullptr_t) = delete; /** Insert a field. If one or more fields with the same name already exist, the new field will be inserted after the last field with the matching name, in serialization order. The value can be an empty string. @param name The field name. It is interpreted as a case-insensitive string. @param value The value of the field, as a @ref boost::beast::string_view */ void insert(string_view name, string_view const& value); /* Insert a field from a null pointer (deleted). */ void insert(string_view, std::nullptr_t) = delete; /** Insert a field. If one or more fields with the same name already exist, the new field will be inserted after the last field with the matching name, in serialization order. The value can be an empty string. @param name The field name. @param name_string The literal text corresponding to the field name. If `name != field::unknown`, then this value must be equal to `to_string(name)` using a case-insensitive comparison, otherwise the behavior is undefined. @param value The value of the field, as a @ref boost::beast::string_view */ void insert(field name, string_view name_string, string_view const& value); void insert(field, string_view, std::nullptr_t) = delete; /** Set a field value, removing any other instances of that field. First removes any values with matching field names, then inserts the new field value. The value may be an empty string. @param name The field name. @param value The value of the field, as a @ref boost::beast::string_view @return The field value. */ void set(field name, string_view const& value); void set(field, std::nullptr_t) = delete; /** Set a field value, removing any other instances of that field. First removes any values with matching field names, then inserts the new field value. The value can be an empty string. @param name The field name. It is interpreted as a case-insensitive string. @param value The value of the field, as a @ref boost::beast::string_view */ void set(string_view name, string_view const& value); void set(string_view, std::nullptr_t) = delete; /** Remove a field. References and iterators to the erased elements are invalidated. Other references and iterators are not affected. @param pos An iterator to the element to remove. @return An iterator following the last removed element. If the iterator refers to the last element, the end() iterator is returned. */ const_iterator erase(const_iterator pos); /** Remove all fields with the specified name. All fields with the same field name are erased from the container. References and iterators to the erased elements are invalidated. Other references and iterators are not affected. @param name The field name. @return The number of fields removed. */ std::size_t erase(field name); /** Remove all fields with the specified name. All fields with the same field name are erased from the container. References and iterators to the erased elements are invalidated. Other references and iterators are not affected. @param name The field name. It is interpreted as a case-insensitive string. @return The number of fields removed. */ std::size_t erase(string_view name); /** Return a buffer sequence representing the trailers. This function returns a buffer sequence holding the serialized representation of the trailer fields promised in the Accept field. Before calling this function the Accept field must contain the exact trailer fields desired. Each field must also exist. */ /// Swap this container with another void swap(basic_fields& other); /// Swap two field containers template<class Alloc> friend void swap(basic_fields<Alloc>& lhs, basic_fields<Alloc>& rhs); //-------------------------------------------------------------------------- // // Lookup // //-------------------------------------------------------------------------- /** Return the number of fields with the specified name. @param name The field name. */ std::size_t count(field name) const; /** Return the number of fields with the specified name. @param name The field name. It is interpreted as a case-insensitive string. */ std::size_t count(string_view name) const; /** Returns an iterator to the case-insensitive matching field. If more than one field with the specified name exists, the first field defined by insertion order is returned. @param name The field name. @return An iterator to the matching field, or `end()` if no match was found. */ const_iterator find(field name) const; /** Returns an iterator to the case-insensitive matching field name. If more than one field with the specified name exists, the first field defined by insertion order is returned. @param name The field name. It is interpreted as a case-insensitive string. @return An iterator to the matching field, or `end()` if no match was found. */ const_iterator find(string_view name) const; /** Returns a range of iterators to the fields with the specified name. This function returns the first and last iterators to the ordered fields with the specified name. @note The fields represented by the range are ordered. Its elements are guaranteed to match the field ordering of the message. This means users do not need to sort this range when comparing fields of the same name in different messages. @param name The field name. @return A range of iterators to fields with the same name, otherwise an empty range. */ std::pair<const_iterator, const_iterator> equal_range(field name) const; /// @copydoc boost::beast::http::basic_fields::equal_range(boost::beast::http::field) const std::pair<const_iterator, const_iterator> equal_range(string_view name) const; //-------------------------------------------------------------------------- // // Observers // //-------------------------------------------------------------------------- /// Returns a copy of the key comparison function key_compare key_comp() const { return key_compare{}; } protected: /** Returns the request-method string. @note Only called for requests. */ string_view get_method_impl() const; /** Returns the request-target string. @note Only called for requests. */ string_view get_target_impl() const; /** Returns the response reason-phrase string. @note Only called for responses. */ string_view get_reason_impl() const; /** Returns the chunked Transfer-Encoding setting */ bool get_chunked_impl() const; /** Returns the keep-alive setting */ bool get_keep_alive_impl(unsigned version) const; /** Returns `true` if the Content-Length field is present. */ bool has_content_length_impl() const; /** Set or clear the method string. @note Only called for requests. */ void set_method_impl(string_view s); /** Set or clear the target string. @note Only called for requests. */ void set_target_impl(string_view s); /** Set or clear the reason string. @note Only called for responses. */ void set_reason_impl(string_view s); /** Adjusts the chunked Transfer-Encoding value */ void set_chunked_impl(bool value); /** Sets or clears the Content-Length field */ void set_content_length_impl( boost::optional<std::uint64_t> const& value); /** Adjusts the Connection field */ void set_keep_alive_impl( unsigned version, bool keep_alive); private: template<class OtherAlloc> friend class basic_fields; element& new_element(field name, string_view sname, string_view value); void delete_element(element& e); void set_element(element& e); void realloc_string(string_view& dest, string_view s); void realloc_target( string_view& dest, string_view s); template<class OtherAlloc> void copy_all(basic_fields<OtherAlloc> const&); void clear_all(); void delete_list(); void move_assign(basic_fields&, std::true_type); void move_assign(basic_fields&, std::false_type); void copy_assign(basic_fields const&, std::true_type); void copy_assign(basic_fields const&, std::false_type); void swap(basic_fields& other, std::true_type); void swap(basic_fields& other, std::false_type); set_t set_; list_t list_; string_view method_; string_view target_or_reason_; }; /// A typical HTTP header fields container using fields = basic_fields<std::allocator<char>>; } // http } // beast } // boost #include <boost/beast/http/impl/fields.hpp> #endif