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sdk-cpp/vendor/cpprestsdk/include/cpprest/http_msg.h

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/***
* Copyright (C) Microsoft. All rights reserved.
* Licensed under the MIT license. See LICENSE.txt file in the project root for full license information.
*
* =+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+
*
* HTTP Library: Request and reply message definitions.
*
* For the latest on this and related APIs, please see: https://github.com/Microsoft/cpprestsdk
*
* =-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-
****/
#pragma once
#include "cpprest/asyncrt_utils.h"
#include "cpprest/containerstream.h"
#include "cpprest/details/cpprest_compat.h"
#include "cpprest/http_compression.h"
#include "cpprest/http_headers.h"
#include "cpprest/json.h"
#include "cpprest/streams.h"
#include "cpprest/uri.h"
#include "pplx/pplxtasks.h"
#include <map>
#include <memory>
#include <string>
#include <system_error>
#include <vector>
namespace web
{
namespace http
{
// URI class has been moved from web::http namespace to web namespace.
// The below using declarations ensure we don't break existing code.
// Please use the web::uri class going forward.
using web::uri;
using web::uri_builder;
namespace client
{
class http_client;
}
/// <summary>
/// Represents the HTTP protocol version of a message, as {major, minor}.
/// </summary>
struct http_version
{
uint8_t major;
uint8_t minor;
inline bool operator==(const http_version& other) const { return major == other.major && minor == other.minor; }
inline bool operator<(const http_version& other) const
{
return major < other.major || (major == other.major && minor < other.minor);
}
inline bool operator!=(const http_version& other) const { return !(*this == other); }
inline bool operator>=(const http_version& other) const { return !(*this < other); }
inline bool operator>(const http_version& other) const { return !(*this < other || *this == other); }
inline bool operator<=(const http_version& other) const { return *this < other || *this == other; }
/// <summary>
/// Creates <c>http_version</c> from an HTTP-Version string, "HTTP" "/" 1*DIGIT "." 1*DIGIT.
/// </summary>
/// <returns>Returns a <c>http_version</c> of {0, 0} if not successful.</returns>
static _ASYNCRTIMP http_version __cdecl from_string(const std::string& http_version_string);
/// <summary>
/// Returns the string representation of the <c>http_version</c>.
/// </summary>
_ASYNCRTIMP std::string to_utf8string() const;
};
/// <summary>
/// Predefined HTTP protocol versions.
/// </summary>
class http_versions
{
public:
_ASYNCRTIMP static const http_version HTTP_0_9;
_ASYNCRTIMP static const http_version HTTP_1_0;
_ASYNCRTIMP static const http_version HTTP_1_1;
};
/// <summary>
/// Predefined method strings for the standard HTTP methods mentioned in the
/// HTTP 1.1 specification.
/// </summary>
typedef utility::string_t method;
/// <summary>
/// Common HTTP methods.
/// </summary>
class methods
{
public:
#define _METHODS
#define DAT(a, b) _ASYNCRTIMP const static method a;
#include "cpprest/details/http_constants.dat"
#undef _METHODS
#undef DAT
};
typedef unsigned short status_code;
/// <summary>
/// Predefined values for all of the standard HTTP 1.1 response status codes.
/// </summary>
class status_codes
{
public:
#define _PHRASES
#define DAT(a, b, c) const static status_code a = b;
#include "cpprest/details/http_constants.dat"
#undef _PHRASES
#undef DAT
};
namespace details
{
/// <summary>
/// Constants for MIME types.
/// </summary>
class mime_types
{
public:
#define _MIME_TYPES
#define DAT(a, b) _ASYNCRTIMP const static utility::string_t a;
#include "cpprest/details/http_constants.dat"
#undef _MIME_TYPES
#undef DAT
};
/// <summary>
/// Constants for charset types.
/// </summary>
class charset_types
{
public:
#define _CHARSET_TYPES
#define DAT(a, b) _ASYNCRTIMP const static utility::string_t a;
#include "cpprest/details/http_constants.dat"
#undef _CHARSET_TYPES
#undef DAT
};
} // namespace details
/// Message direction
namespace message_direction
{
/// <summary>
/// Enumeration used to denote the direction of a message: a request with a body is
/// an upload, a response with a body is a download.
/// </summary>
enum direction
{
upload,
download
};
} // namespace message_direction
typedef utility::string_t reason_phrase;
typedef std::function<void(message_direction::direction, utility::size64_t)> progress_handler;
struct http_status_to_phrase
{
unsigned short id;
reason_phrase phrase;
};
/// <summary>
/// Constants for the HTTP headers mentioned in RFC 2616.
/// </summary>
class header_names
{
public:
#define _HEADER_NAMES
#define DAT(a, b) _ASYNCRTIMP const static utility::string_t a;
#include "cpprest/details/http_constants.dat"
#undef _HEADER_NAMES
#undef DAT
};
/// <summary>
/// Represents an HTTP error. This class holds an error message and an optional error code.
/// </summary>
class _ASYNCRTIMP_TYPEINFO http_exception : public std::exception
{
public:
/// <summary>
/// Creates an <c>http_exception</c> with just a string message and no error code.
/// </summary>
/// <param name="whatArg">Error message string.</param>
http_exception(const utility::string_t& whatArg) : m_msg(utility::conversions::to_utf8string(whatArg)) {}
#ifdef _WIN32
/// <summary>
/// Creates an <c>http_exception</c> with just a string message and no error code.
/// </summary>
/// <param name="whatArg">Error message string.</param>
http_exception(std::string whatArg) : m_msg(std::move(whatArg)) {}
#endif
/// <summary>
/// Creates an <c>http_exception</c> with from a error code using the current platform error category.
/// The message of the error code will be used as the what() string message.
/// </summary>
/// <param name="errorCode">Error code value.</param>
http_exception(int errorCode) : m_errorCode(utility::details::create_error_code(errorCode))
{
m_msg = m_errorCode.message();
}
/// <summary>
/// Creates an <c>http_exception</c> with from a error code using the current platform error category.
/// </summary>
/// <param name="errorCode">Error code value.</param>
/// <param name="whatArg">Message to use in what() string.</param>
http_exception(int errorCode, const utility::string_t& whatArg)
: m_errorCode(utility::details::create_error_code(errorCode))
, m_msg(utility::conversions::to_utf8string(whatArg))
{
}
#ifdef _WIN32
/// <summary>
/// Creates an <c>http_exception</c> with from a error code using the current platform error category.
/// </summary>
/// <param name="errorCode">Error code value.</param>
/// <param name="whatArg">Message to use in what() string.</param>
http_exception(int errorCode, std::string whatArg)
: m_errorCode(utility::details::create_error_code(errorCode)), m_msg(std::move(whatArg))
{
}
#endif
/// <summary>
/// Creates an <c>http_exception</c> with from a error code and category. The message of the error code will be used
/// as the <c>what</c> string message.
/// </summary>
/// <param name="errorCode">Error code value.</param>
/// <param name="cat">Error category for the code.</param>
http_exception(int errorCode, const std::error_category& cat) : m_errorCode(std::error_code(errorCode, cat))
{
m_msg = m_errorCode.message();
}
/// <summary>
/// Creates an <c>http_exception</c> with from a error code with a category, and a string message.
/// </summary>
/// <param name="errorCode">Error code value.</param>
/// <param name="whatArg">Error message string.</param>
http_exception(std::error_code errorCode, const utility::string_t& whatArg)
: m_errorCode(std::move(errorCode)), m_msg(utility::conversions::to_utf8string(whatArg))
{
}
#ifdef _WIN32
/// <summary>
/// Creates an <c>http_exception</c> with from a error code with a category, and a string message.
/// </summary>
/// <param name="errorCode">Error code value.</param>
/// <param name="whatArg">Error message string.</param>
http_exception(std::error_code errorCode, std::string whatArg)
: m_errorCode(std::move(errorCode)), m_msg(std::move(whatArg))
{
}
#endif
/// <summary>
/// Gets a string identifying the cause of the exception.
/// </summary>
/// <returns>A null terminated character string.</returns>
const char* what() const CPPREST_NOEXCEPT { return m_msg.c_str(); }
/// <summary>
/// Retrieves the underlying error code causing this exception.
/// </summary>
/// <returns>A std::error_code.</returns>
const std::error_code& error_code() const { return m_errorCode; }
private:
std::error_code m_errorCode;
std::string m_msg;
};
namespace details
{
/// <summary>
/// Base class for HTTP messages.
/// This class is to store common functionality so it isn't duplicated on
/// both the request and response side.
/// </summary>
class http_msg_base
{
public:
friend class http::client::http_client;
_ASYNCRTIMP http_msg_base();
virtual ~http_msg_base() {}
http::http_version http_version() const { return m_http_version; }
http_headers& headers() { return m_headers; }
_ASYNCRTIMP void set_body(const concurrency::streams::istream& instream, const utf8string& contentType);
_ASYNCRTIMP void set_body(const concurrency::streams::istream& instream, const utf16string& contentType);
_ASYNCRTIMP void set_body(const concurrency::streams::istream& instream,
utility::size64_t contentLength,
const utf8string& contentType);
_ASYNCRTIMP void set_body(const concurrency::streams::istream& instream,
utility::size64_t contentLength,
const utf16string& contentType);
/// <summary>
/// Helper function for extract functions. Parses the Content-Type header and check to make sure it matches,
/// throws an exception if not.
/// </summary>
/// <param name="ignore_content_type">If true ignores the Content-Type header value.</param>
/// <param name="check_content_type">Function to verify additional information on Content-Type.</param>
/// <returns>A string containing the charset, an empty string if no Content-Type header is empty.</returns>
utility::string_t parse_and_check_content_type(
bool ignore_content_type, const std::function<bool(const utility::string_t&)>& check_content_type);
_ASYNCRTIMP utf8string extract_utf8string(bool ignore_content_type = false);
_ASYNCRTIMP utf16string extract_utf16string(bool ignore_content_type = false);
_ASYNCRTIMP utility::string_t extract_string(bool ignore_content_type = false);
_ASYNCRTIMP json::value _extract_json(bool ignore_content_type = false);
_ASYNCRTIMP std::vector<unsigned char> _extract_vector();
virtual _ASYNCRTIMP utility::string_t to_string() const;
/// <summary>
/// Completes this message
/// </summary>
virtual _ASYNCRTIMP void _complete(utility::size64_t bodySize,
const std::exception_ptr& exceptionPtr = std::exception_ptr());
/// <summary>
/// Set the stream through which the message body could be read
/// </summary>
void set_instream(const concurrency::streams::istream& instream) { m_inStream = instream; }
/// <summary>
/// Get the stream through which the message body could be read
/// </summary>
const concurrency::streams::istream& instream() const { return m_inStream; }
/// <summary>
/// Set the stream through which the message body could be written
/// </summary>
void set_outstream(const concurrency::streams::ostream& outstream, bool is_default)
{
m_outStream = outstream;
m_default_outstream = is_default;
}
/// <summary>
/// Get the stream through which the message body could be written
/// </summary>
const concurrency::streams::ostream& outstream() const { return m_outStream; }
/// <summary>
/// Sets the compressor for the message body
/// </summary>
void set_compressor(std::unique_ptr<http::compression::compress_provider> compressor)
{
m_compressor = std::move(compressor);
}
/// <summary>
/// Gets the compressor for the message body, if any
/// </summary>
std::unique_ptr<http::compression::compress_provider>& compressor() { return m_compressor; }
/// <summary>
/// Sets the collection of factory classes for decompressors for use with the message body
/// </summary>
void set_decompress_factories(const std::vector<std::shared_ptr<http::compression::decompress_factory>>& factories)
{
m_decompressors = factories;
}
/// <summary>
/// Gets the collection of factory classes for decompressors to be used to decompress the message body, if any
/// </summary>
const std::vector<std::shared_ptr<http::compression::decompress_factory>>& decompress_factories()
{
return m_decompressors;
}
const pplx::task_completion_event<utility::size64_t>& _get_data_available() const { return m_data_available; }
/// <summary>
/// Prepare the message with an output stream to receive network data
/// </summary>
_ASYNCRTIMP void _prepare_to_receive_data();
/// <summary>
/// Determine the remaining input stream length
/// </summary>
/// <returns>
/// std::numeric_limits<size_t>::max() if the stream's remaining length cannot be determined
/// length if the stream's remaining length (which may be 0) can be determined
/// </returns>
/// <remarks>
/// This routine should only be called after a msg (request/response) has been
/// completely constructed.
/// </remarks>
_ASYNCRTIMP size_t _get_stream_length();
/// <summary>
/// Determine the content length
/// </summary>
/// <returns>
/// std::numeric_limits<size_t>::max() if there is content with unknown length (transfer_encoding:chunked)
/// 0 if there is no content
/// length if there is content with known length
/// </returns>
/// <remarks>
/// This routine should only be called after a msg (request/response) has been
/// completely constructed.
/// </remarks>
_ASYNCRTIMP size_t _get_content_length();
/// <summary>
/// Determine the content length, and, if necessary, manage compression in the Transfer-Encoding header
/// </summary>
/// <returns>
/// std::numeric_limits<size_t>::max() if there is content with unknown length (transfer_encoding:chunked)
/// 0 if there is no content
/// length if there is content with known length
/// </returns>
/// <remarks>
/// This routine is like _get_content_length, except that it adds a compression algorithm to
/// the Trasfer-Length header if compression is configured. It throws if a Transfer-Encoding
/// header exists and does not match the one it generated.
/// </remarks>
_ASYNCRTIMP size_t _get_content_length_and_set_compression();
void _set_http_version(const http::http_version& http_version) { m_http_version = http_version; }
protected:
std::unique_ptr<http::compression::compress_provider> m_compressor;
std::unique_ptr<http::compression::decompress_provider> m_decompressor;
std::vector<std::shared_ptr<http::compression::decompress_factory>> m_decompressors;
/// <summary>
/// Stream to read the message body.
/// By default this is an invalid stream. The user could set the instream on
/// a request by calling set_request_stream(...). This would also be set when
/// set_body() is called - a stream from the body is constructed and set.
/// Even in the presence of msg body this stream could be invalid. An example
/// would be when the user sets an ostream for the response. With that API the
/// user does not provide the ability to read the msg body.
/// Thus m_instream is valid when there is a msg body and it can actually be read
/// </summary>
concurrency::streams::istream m_inStream;
/// <summary>
/// stream to write the msg body
/// By default this is an invalid stream. The user could set this on the response
/// (for http_client). In all the other cases we would construct one to transfer
/// the data from the network into the message body.
/// </summary>
concurrency::streams::ostream m_outStream;
http::http_version m_http_version;
http_headers m_headers;
bool m_default_outstream;
/// <summary> The TCE is used to signal the availability of the message body. </summary>
pplx::task_completion_event<utility::size64_t> m_data_available;
size_t _get_content_length(bool honor_compression);
};
/// <summary>
/// Base structure for associating internal server information
/// with an HTTP request/response.
/// </summary>
class _http_server_context
{
public:
_http_server_context() {}
virtual ~_http_server_context() {}
private:
};
/// <summary>
/// Internal representation of an HTTP response.
/// </summary>
class _http_response final : public http::details::http_msg_base
{
public:
_http_response() : m_status_code((std::numeric_limits<uint16_t>::max)()) {}
_http_response(http::status_code code) : m_status_code(code) {}
http::status_code status_code() const { return m_status_code; }
void set_status_code(http::status_code code) { m_status_code = code; }
const http::reason_phrase& reason_phrase() const { return m_reason_phrase; }
void set_reason_phrase(const http::reason_phrase& reason) { m_reason_phrase = reason; }
_ASYNCRTIMP utility::string_t to_string() const;
_http_server_context* _get_server_context() const { return m_server_context.get(); }
void _set_server_context(std::unique_ptr<details::_http_server_context> server_context)
{
m_server_context = std::move(server_context);
}
private:
std::unique_ptr<_http_server_context> m_server_context;
http::status_code m_status_code;
http::reason_phrase m_reason_phrase;
};
} // namespace details
/// <summary>
/// Represents an HTTP response.
/// </summary>
class http_response
{
public:
/// <summary>
/// Constructs a response with an empty status code, no headers, and no body.
/// </summary>
/// <returns>A new HTTP response.</returns>
http_response() : _m_impl(std::make_shared<details::_http_response>()) {}
/// <summary>
/// Constructs a response with given status code, no headers, and no body.
/// </summary>
/// <param name="code">HTTP status code to use in response.</param>
/// <returns>A new HTTP response.</returns>
http_response(http::status_code code) : _m_impl(std::make_shared<details::_http_response>(code)) {}
/// <summary>
/// Gets the status code of the response message.
/// </summary>
/// <returns>status code.</returns>
http::status_code status_code() const { return _m_impl->status_code(); }
/// <summary>
/// Sets the status code of the response message.
/// </summary>
/// <param name="code">Status code to set.</param>
/// <remarks>
/// This will overwrite any previously set status code.
/// </remarks>
void set_status_code(http::status_code code) const { _m_impl->set_status_code(code); }
/// <summary>
/// Gets the reason phrase of the response message.
/// If no reason phrase is set it will default to the standard one corresponding to the status code.
/// </summary>
/// <returns>Reason phrase.</returns>
const http::reason_phrase& reason_phrase() const { return _m_impl->reason_phrase(); }
/// <summary>
/// Sets the reason phrase of the response message.
/// If no reason phrase is set it will default to the standard one corresponding to the status code.
/// </summary>
/// <param name="reason">The reason phrase to set.</param>
void set_reason_phrase(const http::reason_phrase& reason) const { _m_impl->set_reason_phrase(reason); }
/// <summary>
/// Gets the headers of the response message.
/// </summary>
/// <returns>HTTP headers for this response.</returns>
/// <remarks>
/// Use the <seealso cref="http_headers::add Method"/> to fill in desired headers.
/// </remarks>
http_headers& headers() { return _m_impl->headers(); }
/// <summary>
/// Gets a const reference to the headers of the response message.
/// </summary>
/// <returns>HTTP headers for this response.</returns>
const http_headers& headers() const { return _m_impl->headers(); }
/// <summary>
/// Generates a string representation of the message, including the body when possible.
/// Mainly this should be used for debugging purposes as it has to copy the
/// message body and doesn't have excellent performance.
/// </summary>
/// <returns>A string representation of this HTTP request.</returns>
/// <remarks>Note this function is synchronous and doesn't wait for the
/// entire message body to arrive. If the message body has arrived by the time this
/// function is called and it is has a textual Content-Type it will be included.
/// Otherwise just the headers will be present.</remarks>
utility::string_t to_string() const { return _m_impl->to_string(); }
/// <summary>
/// Extracts the body of the response message as a string value, checking that the content type is a MIME text type.
/// A body can only be extracted once because in some cases an optimization is made where the data is 'moved' out.
/// </summary>
/// <param name="ignore_content_type">If true, ignores the Content-Type header and assumes text.</param>
/// <returns>String containing body of the message.</returns>
pplx::task<utility::string_t> extract_string(bool ignore_content_type = false) const
{
auto impl = _m_impl;
return pplx::create_task(_m_impl->_get_data_available()).then([impl, ignore_content_type](utility::size64_t) {
return impl->extract_string(ignore_content_type);
});
}
/// <summary>
/// Extracts the body of the response message as a UTF-8 string value, checking that the content type is a MIME text
/// type. A body can only be extracted once because in some cases an optimization is made where the data is 'moved'
/// out.
/// </summary>
/// <param name="ignore_content_type">If true, ignores the Content-Type header and assumes text.</param>
/// <returns>String containing body of the message.</returns>
pplx::task<utf8string> extract_utf8string(bool ignore_content_type = false) const
{
auto impl = _m_impl;
return pplx::create_task(_m_impl->_get_data_available()).then([impl, ignore_content_type](utility::size64_t) {
return impl->extract_utf8string(ignore_content_type);
});
}
/// <summary>
/// Extracts the body of the response message as a UTF-16 string value, checking that the content type is a MIME
/// text type. A body can only be extracted once because in some cases an optimization is made where the data is
/// 'moved' out.
/// </summary>
/// <param name="ignore_content_type">If true, ignores the Content-Type header and assumes text.</param>
/// <returns>String containing body of the message.</returns>
pplx::task<utf16string> extract_utf16string(bool ignore_content_type = false) const
{
auto impl = _m_impl;
return pplx::create_task(_m_impl->_get_data_available()).then([impl, ignore_content_type](utility::size64_t) {
return impl->extract_utf16string(ignore_content_type);
});
}
/// <summary>
/// Extracts the body of the response message into a json value, checking that the content type is application/json.
/// A body can only be extracted once because in some cases an optimization is made where the data is 'moved' out.
/// </summary>
/// <param name="ignore_content_type">If true, ignores the Content-Type header and assumes json.</param>
/// <returns>JSON value from the body of this message.</returns>
pplx::task<json::value> extract_json(bool ignore_content_type = false) const
{
auto impl = _m_impl;
return pplx::create_task(_m_impl->_get_data_available()).then([impl, ignore_content_type](utility::size64_t) {
return impl->_extract_json(ignore_content_type);
});
}
/// <summary>
/// Extracts the body of the response message into a vector of bytes.
/// </summary>
/// <returns>The body of the message as a vector of bytes.</returns>
pplx::task<std::vector<unsigned char>> extract_vector() const
{
auto impl = _m_impl;
return pplx::create_task(_m_impl->_get_data_available()).then([impl](utility::size64_t) {
return impl->_extract_vector();
});
}
/// <summary>
/// Sets the body of the message to a textual string and set the "Content-Type" header. Assumes
/// the character encoding of the string is UTF-8.
/// </summary>
/// <param name="body_text">String containing body text.</param>
/// <param name="content_type">MIME type to set the "Content-Type" header to. Default to "text/plain;
/// charset=utf-8".</param> <remarks> This will overwrite any previously set body data and "Content-Type" header.
/// </remarks>
void set_body(utf8string&& body_text, const utf8string& content_type = utf8string("text/plain; charset=utf-8"))
{
const auto length = body_text.size();
_m_impl->set_body(
concurrency::streams::bytestream::open_istream<std::string>(std::move(body_text)), length, content_type);
}
/// <summary>
/// Sets the body of the message to a textual string and set the "Content-Type" header. Assumes
/// the character encoding of the string is UTF-8.
/// </summary>
/// <param name="body_text">String containing body text.</param>
/// <param name="content_type">MIME type to set the "Content-Type" header to. Default to "text/plain;
/// charset=utf-8".</param> <remarks> This will overwrite any previously set body data and "Content-Type" header.
/// </remarks>
void set_body(const utf8string& body_text, const utf8string& content_type = utf8string("text/plain; charset=utf-8"))
{
_m_impl->set_body(
concurrency::streams::bytestream::open_istream<std::string>(body_text), body_text.size(), content_type);
}
/// <summary>
/// Sets the body of the message to a textual string and set the "Content-Type" header. Assumes
/// the character encoding of the string is UTF-16 will perform conversion to UTF-8.
/// </summary>
/// <param name="body_text">String containing body text.</param>
/// <param name="content_type">MIME type to set the "Content-Type" header to. Default to "text/plain".</param>
/// <remarks>
/// This will overwrite any previously set body data and "Content-Type" header.
/// </remarks>
void set_body(const utf16string& body_text,
utf16string content_type = utility::conversions::to_utf16string("text/plain"))
{
if (content_type.find(::utility::conversions::to_utf16string("charset=")) != content_type.npos)
{
throw std::invalid_argument("content_type can't contain a 'charset'.");
}
auto utf8body = utility::conversions::utf16_to_utf8(body_text);
auto length = utf8body.size();
_m_impl->set_body(concurrency::streams::bytestream::open_istream<std::string>(std::move(utf8body)),
length,
std::move(content_type.append(::utility::conversions::to_utf16string("; charset=utf-8"))));
}
/// <summary>
/// Sets the body of the message to contain json value. If the 'Content-Type'
/// header hasn't already been set it will be set to 'application/json'.
/// </summary>
/// <param name="body_text">json value.</param>
/// <remarks>
/// This will overwrite any previously set body data.
/// </remarks>
void set_body(const json::value& body_data)
{
auto body_text = utility::conversions::to_utf8string(body_data.serialize());
auto length = body_text.size();
set_body(concurrency::streams::bytestream::open_istream(std::move(body_text)),
length,
_XPLATSTR("application/json"));
}
/// <summary>
/// Sets the body of the message to the contents of a byte vector. If the 'Content-Type'
/// header hasn't already been set it will be set to 'application/octet-stream'.
/// </summary>
/// <param name="body_data">Vector containing body data.</param>
/// <remarks>
/// This will overwrite any previously set body data.
/// </remarks>
void set_body(std::vector<unsigned char>&& body_data)
{
auto length = body_data.size();
set_body(concurrency::streams::bytestream::open_istream(std::move(body_data)), length);
}
/// <summary>
/// Sets the body of the message to the contents of a byte vector. If the 'Content-Type'
/// header hasn't already been set it will be set to 'application/octet-stream'.
/// </summary>
/// <param name="body_data">Vector containing body data.</param>
/// <remarks>
/// This will overwrite any previously set body data.
/// </remarks>
void set_body(const std::vector<unsigned char>& body_data)
{
set_body(concurrency::streams::bytestream::open_istream(body_data), body_data.size());
}
/// <summary>
/// Defines a stream that will be relied on to provide the body of the HTTP message when it is
/// sent.
/// </summary>
/// <param name="stream">A readable, open asynchronous stream.</param>
/// <param name="content_type">A string holding the MIME type of the message body.</param>
/// <remarks>
/// This cannot be used in conjunction with any external means of setting the body of the request.
/// The stream will not be read until the message is sent.
/// </remarks>
void set_body(const concurrency::streams::istream& stream,
const utility::string_t& content_type = _XPLATSTR("application/octet-stream"))
{
_m_impl->set_body(stream, content_type);
}
/// <summary>
/// Defines a stream that will be relied on to provide the body of the HTTP message when it is
/// sent.
/// </summary>
/// <param name="stream">A readable, open asynchronous stream.</param>
/// <param name="content_length">The size of the data to be sent in the body.</param>
/// <param name="content_type">A string holding the MIME type of the message body.</param>
/// <remarks>
/// This cannot be used in conjunction with any external means of setting the body of the request.
/// The stream will not be read until the message is sent.
/// </remarks>
void set_body(const concurrency::streams::istream& stream,
utility::size64_t content_length,
const utility::string_t& content_type = _XPLATSTR("application/octet-stream"))
{
_m_impl->set_body(stream, content_length, content_type);
}
/// <summary>
/// Produces a stream which the caller may use to retrieve data from an incoming request.
/// </summary>
/// <returns>A readable, open asynchronous stream.</returns>
/// <remarks>
/// This cannot be used in conjunction with any other means of getting the body of the request.
/// It is not necessary to wait until the message has been sent before starting to write to the
/// stream, but it is advisable to do so, since it will allow the network I/O to start earlier
/// and the work of sending data can be overlapped with the production of more data.
/// </remarks>
concurrency::streams::istream body() const { return _m_impl->instream(); }
/// <summary>
/// Signals the user (client) when all the data for this response message has been received.
/// </summary>
/// <returns>A <c>task</c> which is completed when all of the response body has been received.</returns>
pplx::task<http::http_response> content_ready() const
{
http_response resp = *this;
return pplx::create_task(_m_impl->_get_data_available()).then([resp](utility::size64_t) mutable {
return resp;
});
}
std::shared_ptr<http::details::_http_response> _get_impl() const { return _m_impl; }
http::details::_http_server_context* _get_server_context() const { return _m_impl->_get_server_context(); }
void _set_server_context(std::unique_ptr<http::details::_http_server_context> server_context)
{
_m_impl->_set_server_context(std::move(server_context));
}
private:
std::shared_ptr<http::details::_http_response> _m_impl;
};
namespace details
{
/// <summary>
/// Internal representation of an HTTP request message.
/// </summary>
class _http_request final : public http::details::http_msg_base, public std::enable_shared_from_this<_http_request>
{
public:
_ASYNCRTIMP _http_request(http::method mtd);
_ASYNCRTIMP _http_request(std::unique_ptr<http::details::_http_server_context> server_context);
virtual ~_http_request() {}
http::method& method() { return m_method; }
uri& request_uri() { return m_uri; }
_ASYNCRTIMP uri absolute_uri() const;
_ASYNCRTIMP uri relative_uri() const;
_ASYNCRTIMP void set_request_uri(const uri&);
const utility::string_t& remote_address() const { return m_remote_address; }
const pplx::cancellation_token& cancellation_token() const { return m_cancellationToken; }
void set_cancellation_token(const pplx::cancellation_token& token) { m_cancellationToken = token; }
_ASYNCRTIMP utility::string_t to_string() const;
_ASYNCRTIMP pplx::task<void> reply(const http_response& response);
pplx::task<http_response> get_response() { return pplx::task<http_response>(m_response); }
_ASYNCRTIMP pplx::task<void> _reply_if_not_already(http::status_code status);
void set_response_stream(const concurrency::streams::ostream& stream) { m_response_stream = stream; }
void set_progress_handler(const progress_handler& handler)
{
m_progress_handler = std::make_shared<progress_handler>(handler);
}
const concurrency::streams::ostream& _response_stream() const { return m_response_stream; }
const std::shared_ptr<progress_handler>& _progress_handler() const { return m_progress_handler; }
http::details::_http_server_context* _get_server_context() const { return m_server_context.get(); }
void _set_server_context(std::unique_ptr<http::details::_http_server_context> server_context)
{
m_server_context = std::move(server_context);
}
void _set_listener_path(const utility::string_t& path) { m_listener_path = path; }
void _set_base_uri(const http::uri& base_uri) { m_base_uri = base_uri; }
void _set_remote_address(const utility::string_t& remote_address) { m_remote_address = remote_address; }
private:
// Actual initiates sending the response, without checking if a response has already been sent.
pplx::task<void> _reply_impl(http_response response);
http::method m_method;
// Tracks whether or not a response has already been started for this message.
// 0 = No reply sent
// 1 = Usual reply sent
// 2 = Reply aborted by another thread; e.g. server shutdown
pplx::details::atomic_long m_initiated_response;
std::unique_ptr<http::details::_http_server_context> m_server_context;
pplx::cancellation_token m_cancellationToken;
http::uri m_base_uri;
http::uri m_uri;
utility::string_t m_listener_path;
concurrency::streams::ostream m_response_stream;
std::shared_ptr<progress_handler> m_progress_handler;
pplx::task_completion_event<http_response> m_response;
utility::string_t m_remote_address;
};
} // namespace details
/// <summary>
/// Represents an HTTP request.
/// </summary>
class http_request
{
public:
/// <summary>
/// Constructs a new HTTP request with the 'GET' method.
/// </summary>
http_request() : _m_impl(std::make_shared<http::details::_http_request>(methods::GET)) {}
/// <summary>
/// Constructs a new HTTP request with the given request method.
/// </summary>
/// <param name="mtd">Request method.</param>
http_request(http::method mtd) : _m_impl(std::make_shared<http::details::_http_request>(std::move(mtd))) {}
/// <summary>
/// Destructor frees any held resources.
/// </summary>
~http_request() {}
/// <summary>
/// Get the method (GET/PUT/POST/DELETE) of the request message.
/// </summary>
/// <returns>Request method of this HTTP request.</returns>
const http::method& method() const { return _m_impl->method(); }
/// <summary>
/// Set the method (GET/PUT/POST/DELETE) of the request message.
/// </summary>
/// <param name="method">Request method of this HTTP request.</param>
void set_method(const http::method& method) const { _m_impl->method() = method; }
/// <summary>
/// Get the underling URI of the request message.
/// </summary>
/// <returns>The uri of this message.</returns>
const uri& request_uri() const { return _m_impl->request_uri(); }
/// <summary>
/// Set the underling URI of the request message.
/// </summary>
/// <param name="uri">The uri for this message.</param>
void set_request_uri(const uri& uri) { return _m_impl->set_request_uri(uri); }
/// <summary>
/// Gets a reference the URI path, query, and fragment part of this request message.
/// This will be appended to the base URI specified at construction of the http_client.
/// </summary>
/// <returns>A string.</returns>
/// <remarks>When the request is the one passed to a listener's handler, the
/// relative URI is the request URI less the listener's path. In all other circumstances,
/// request_uri() and relative_uri() will return the same value.
/// </remarks>
uri relative_uri() const { return _m_impl->relative_uri(); }
/// <summary>
/// Get an absolute URI with scheme, host, port, path, query, and fragment part of
/// the request message.
/// </summary>
/// <remarks>Absolute URI is only valid after this http_request object has been passed
/// to http_client::request().
/// </remarks>
uri absolute_uri() const { return _m_impl->absolute_uri(); }
/// <summary>
/// Gets a reference to the headers of the response message.
/// </summary>
/// <returns>HTTP headers for this response.</returns>
/// <remarks>
/// Use the http_headers::add to fill in desired headers.
/// </remarks>
http_headers& headers() { return _m_impl->headers(); }
/// <summary>
/// Gets a const reference to the headers of the response message.
/// </summary>
/// <returns>HTTP headers for this response.</returns>
/// <remarks>
/// Use the http_headers::add to fill in desired headers.
/// </remarks>
const http_headers& headers() const { return _m_impl->headers(); }
/// <summary>
/// Returns the HTTP protocol version of this request message.
/// </summary>
/// <returns>The HTTP protocol version.</returns>
http::http_version http_version() const { return _m_impl->http_version(); }
/// <summary>
/// Returns a string representation of the remote IP address.
/// </summary>
/// <returns>The remote IP address.</returns>
const utility::string_t& remote_address() const { return _m_impl->remote_address(); }
CASABLANCA_DEPRECATED("Use `remote_address()` instead.")
const utility::string_t& get_remote_address() const { return _m_impl->remote_address(); }
/// <summary>
/// Extract the body of the request message as a string value, checking that the content type is a MIME text type.
/// A body can only be extracted once because in some cases an optimization is made where the data is 'moved' out.
/// </summary>
/// <param name="ignore_content_type">If true, ignores the Content-Type header and assumes UTF-8.</param>
/// <returns>String containing body of the message.</returns>
pplx::task<utility::string_t> extract_string(bool ignore_content_type = false)
{
auto impl = _m_impl;
return pplx::create_task(_m_impl->_get_data_available()).then([impl, ignore_content_type](utility::size64_t) {
return impl->extract_string(ignore_content_type);
});
}
/// <summary>
/// Extract the body of the request message as a UTF-8 string value, checking that the content type is a MIME text
/// type. A body can only be extracted once because in some cases an optimization is made where the data is 'moved'
/// out.
/// </summary>
/// <param name="ignore_content_type">If true, ignores the Content-Type header and assumes UTF-8.</param>
/// <returns>String containing body of the message.</returns>
pplx::task<utf8string> extract_utf8string(bool ignore_content_type = false)
{
auto impl = _m_impl;
return pplx::create_task(_m_impl->_get_data_available()).then([impl, ignore_content_type](utility::size64_t) {
return impl->extract_utf8string(ignore_content_type);
});
}
/// <summary>
/// Extract the body of the request message as a UTF-16 string value, checking that the content type is a MIME text
/// type. A body can only be extracted once because in some cases an optimization is made where the data is 'moved'
/// out.
/// </summary>
/// <param name="ignore_content_type">If true, ignores the Content-Type header and assumes UTF-16.</param>
/// <returns>String containing body of the message.</returns>
pplx::task<utf16string> extract_utf16string(bool ignore_content_type = false)
{
auto impl = _m_impl;
return pplx::create_task(_m_impl->_get_data_available()).then([impl, ignore_content_type](utility::size64_t) {
return impl->extract_utf16string(ignore_content_type);
});
}
/// <summary>
/// Extracts the body of the request message into a json value, checking that the content type is application/json.
/// A body can only be extracted once because in some cases an optimization is made where the data is 'moved' out.
/// </summary>
/// <param name="ignore_content_type">If true, ignores the Content-Type header and assumes UTF-8.</param>
/// <returns>JSON value from the body of this message.</returns>
pplx::task<json::value> extract_json(bool ignore_content_type = false) const
{
auto impl = _m_impl;
return pplx::create_task(_m_impl->_get_data_available()).then([impl, ignore_content_type](utility::size64_t) {
return impl->_extract_json(ignore_content_type);
});
}
/// <summary>
/// Extract the body of the response message into a vector of bytes. Extracting a vector can be done on
/// </summary>
/// <returns>The body of the message as a vector of bytes.</returns>
pplx::task<std::vector<unsigned char>> extract_vector() const
{
auto impl = _m_impl;
return pplx::create_task(_m_impl->_get_data_available()).then([impl](utility::size64_t) {
return impl->_extract_vector();
});
}
/// <summary>
/// Sets the body of the message to a textual string and set the "Content-Type" header. Assumes
/// the character encoding of the string is UTF-8.
/// </summary>
/// <param name="body_text">String containing body text.</param>
/// <param name="content_type">MIME type to set the "Content-Type" header to. Default to "text/plain;
/// charset=utf-8".</param> <remarks> This will overwrite any previously set body data and "Content-Type" header.
/// </remarks>
void set_body(utf8string&& body_text, const utf8string& content_type = utf8string("text/plain; charset=utf-8"))
{
const auto length = body_text.size();
_m_impl->set_body(
concurrency::streams::bytestream::open_istream<std::string>(std::move(body_text)), length, content_type);
}
/// <summary>
/// Sets the body of the message to a textual string and set the "Content-Type" header. Assumes
/// the character encoding of the string is UTF-8.
/// </summary>
/// <param name="body_text">String containing body text.</param>
/// <param name="content_type">MIME type to set the "Content-Type" header to. Default to "text/plain;
/// charset=utf-8".</param> <remarks> This will overwrite any previously set body data and "Content-Type" header.
/// </remarks>
void set_body(const utf8string& body_text, const utf8string& content_type = utf8string("text/plain; charset=utf-8"))
{
_m_impl->set_body(
concurrency::streams::bytestream::open_istream<std::string>(body_text), body_text.size(), content_type);
}
/// <summary>
/// Sets the body of the message to a textual string and set the "Content-Type" header. Assumes
/// the character encoding of the string is UTF-16 will perform conversion to UTF-8.
/// </summary>
/// </summary>
/// <param name="body_text">String containing body text.</param>
/// <param name="content_type">MIME type to set the "Content-Type" header to. Default to "text/plain".</param>
/// <remarks>
/// This will overwrite any previously set body data and "Content-Type" header.
/// </remarks>
void set_body(const utf16string& body_text,
utf16string content_type = utility::conversions::to_utf16string("text/plain"))
{
if (content_type.find(::utility::conversions::to_utf16string("charset=")) != content_type.npos)
{
throw std::invalid_argument("content_type can't contain a 'charset'.");
}
auto utf8body = utility::conversions::utf16_to_utf8(body_text);
auto length = utf8body.size();
_m_impl->set_body(concurrency::streams::bytestream::open_istream(std::move(utf8body)),
length,
std::move(content_type.append(::utility::conversions::to_utf16string("; charset=utf-8"))));
}
/// <summary>
/// Sets the body of the message to contain json value. If the 'Content-Type'
/// header hasn't already been set it will be set to 'application/json'.
/// </summary>
/// <param name="body_data">json value.</param>
/// <remarks>
/// This will overwrite any previously set body data.
/// </remarks>
void set_body(const json::value& body_data)
{
auto body_text = utility::conversions::to_utf8string(body_data.serialize());
auto length = body_text.size();
_m_impl->set_body(concurrency::streams::bytestream::open_istream(std::move(body_text)),
length,
_XPLATSTR("application/json"));
}
/// <summary>
/// Sets the body of the message to the contents of a byte vector. If the 'Content-Type'
/// header hasn't already been set it will be set to 'application/octet-stream'.
/// </summary>
/// <param name="body_data">Vector containing body data.</param>
/// <remarks>
/// This will overwrite any previously set body data.
/// </remarks>
void set_body(std::vector<unsigned char>&& body_data)
{
auto length = body_data.size();
_m_impl->set_body(concurrency::streams::bytestream::open_istream(std::move(body_data)),
length,
_XPLATSTR("application/octet-stream"));
}
/// <summary>
/// Sets the body of the message to the contents of a byte vector. If the 'Content-Type'
/// header hasn't already been set it will be set to 'application/octet-stream'.
/// </summary>
/// <param name="body_data">Vector containing body data.</param>
/// <remarks>
/// This will overwrite any previously set body data.
/// </remarks>
void set_body(const std::vector<unsigned char>& body_data)
{
set_body(concurrency::streams::bytestream::open_istream(body_data), body_data.size());
}
/// <summary>
/// Defines a stream that will be relied on to provide the body of the HTTP message when it is
/// sent.
/// </summary>
/// <param name="stream">A readable, open asynchronous stream.</param>
/// <param name="content_type">A string holding the MIME type of the message body.</param>
/// <remarks>
/// This cannot be used in conjunction with any other means of setting the body of the request.
/// The stream will not be read until the message is sent.
/// </remarks>
void set_body(const concurrency::streams::istream& stream,
const utility::string_t& content_type = _XPLATSTR("application/octet-stream"))
{
_m_impl->set_body(stream, content_type);
}
/// <summary>
/// Defines a stream that will be relied on to provide the body of the HTTP message when it is
/// sent.
/// </summary>
/// <param name="stream">A readable, open asynchronous stream.</param>
/// <param name="content_length">The size of the data to be sent in the body.</param>
/// <param name="content_type">A string holding the MIME type of the message body.</param>
/// <remarks>
/// This cannot be used in conjunction with any other means of setting the body of the request.
/// The stream will not be read until the message is sent.
/// </remarks>
void set_body(const concurrency::streams::istream& stream,
utility::size64_t content_length,
const utility::string_t& content_type = _XPLATSTR("application/octet-stream"))
{
_m_impl->set_body(stream, content_length, content_type);
}
/// <summary>
/// Produces a stream which the caller may use to retrieve data from an incoming request.
/// </summary>
/// <returns>A readable, open asynchronous stream.</returns>
/// <remarks>
/// This cannot be used in conjunction with any other means of getting the body of the request.
/// It is not necessary to wait until the message has been sent before starting to write to the
/// stream, but it is advisable to do so, since it will allow the network I/O to start earlier
/// and the work of sending data can be overlapped with the production of more data.
/// </remarks>
concurrency::streams::istream body() const { return _m_impl->instream(); }
/// <summary>
/// Defines a stream that will be relied on to hold the body of the HTTP response message that
/// results from the request.
/// </summary>
/// <param name="stream">A writable, open asynchronous stream.</param>
/// <remarks>
/// If this function is called, the body of the response should not be accessed in any other
/// way.
/// </remarks>
void set_response_stream(const concurrency::streams::ostream& stream)
{
return _m_impl->set_response_stream(stream);
}
/// <summary>
/// Sets a compressor that will be used to compress the body of the HTTP message as it is sent.
/// </summary>
/// <param name="compressor">A pointer to an instantiated compressor of the desired type.</param>
/// <remarks>
/// This cannot be used in conjunction with any external means of compression. The Transfer-Encoding
/// header will be managed internally, and must not be set by the client.
/// </remarks>
void set_compressor(std::unique_ptr<http::compression::compress_provider> compressor)
{
return _m_impl->set_compressor(std::move(compressor));
}
/// <summary>
/// Sets a compressor that will be used to compress the body of the HTTP message as it is sent.
/// </summary>
/// <param name="algorithm">The built-in compression algorithm to use.</param>
/// <returns>
/// True if a built-in compressor was instantiated, otherwise false.
/// </returns>
/// <remarks>
/// This cannot be used in conjunction with any external means of compression. The Transfer-Encoding
/// header will be managed internally, and must not be set by the client.
/// </remarks>
bool set_compressor(utility::string_t algorithm)
{
_m_impl->set_compressor(http::compression::builtin::make_compressor(algorithm));
return (bool)_m_impl->compressor();
}
/// <summary>
/// Gets the compressor to be used to compress the message body, if any.
/// </summary>
/// <returns>
/// The compressor itself.
/// </returns>
std::unique_ptr<http::compression::compress_provider>& compressor() { return _m_impl->compressor(); }
/// <summary>
/// Sets the default collection of built-in factory classes for decompressors that may be used to
/// decompress the body of the HTTP message as it is received, effectively enabling decompression.
/// </summary>
/// <param name="factories">The collection of factory classes for allowable decompressors. The
/// supplied vector itself need not remain valid after the call returns.</param>
/// <remarks>
/// This default collection is implied if request_compressed_response() is set in the associated
/// <c>client::http_client_config</c> and neither overload of this method has been called.
///
/// This cannot be used in conjunction with any external means of decompression. The TE and Accept-Encoding
/// headers must not be set by the client, as they will be managed internally as appropriate.
/// </remarks>
_ASYNCRTIMP void set_decompress_factories();
/// <summary>
/// Sets a collection of factory classes for decompressors that may be used to decompress the
/// body of the HTTP message as it is received, effectively enabling decompression.
/// </summary>
/// <remarks>
/// If set, this collection takes the place of the built-in compression providers. It may contain
/// custom factory classes and/or factory classes for built-in providers, and may be used to adjust
/// the weights of the built-in providers, which default to 500 (i.e. "q=0.500").
///
/// This cannot be used in conjunction with any external means of decompression. The TE and Accept-Encoding
/// headers must not be set by the client, as they will be managed internally as appropriate.
/// </remarks>
void set_decompress_factories(const std::vector<std::shared_ptr<http::compression::decompress_factory>>& factories)
{
return _m_impl->set_decompress_factories(factories);
}
/// <summary>
/// Gets the collection of factory classes for decompressors to be used to decompress the message body, if any.
/// </summary>
/// <returns>
/// The collection of factory classes itself.
/// </returns>
/// <remarks>
/// This cannot be used in conjunction with any external means of decompression. The TE
/// header must not be set by the client, as it will be managed internally.
/// </remarks>
const std::vector<std::shared_ptr<http::compression::decompress_factory>>& decompress_factories() const
{
return _m_impl->decompress_factories();
}
/// <summary>
/// Defines a callback function that will be invoked for every chunk of data uploaded or downloaded
/// as part of the request.
/// </summary>
/// <param name="handler">A function representing the progress handler. It's parameters are:
/// up: a <c>message_direction::direction</c> value indicating the direction of the message
/// that is being reported.
/// progress: the number of bytes that have been processed so far.
/// </param>
/// <remarks>
/// This function will be called at least once for upload and at least once for
/// the download body, unless there is some exception generated. An HTTP message with an error
/// code is not an exception. This means, that even if there is no body, the progress handler
/// will be called.
///
/// Setting the chunk size on the http_client does not guarantee that the client will be using
/// exactly that increment for uploading and downloading data.
///
/// The handler will be called only once for each combination of argument values, in order. Depending
/// on how a service responds, some download values may come before all upload values have been
/// reported.
///
/// The progress handler will be called on the thread processing the request. This means that
/// the implementation of the handler must take care not to block the thread or do anything
/// that takes significant amounts of time. In particular, do not do any kind of I/O from within
/// the handler, do not update user interfaces, and to not acquire any locks. If such activities
/// are necessary, it is the handler's responsibility to execute that work on a separate thread.
/// </remarks>
void set_progress_handler(const progress_handler& handler) { return _m_impl->set_progress_handler(handler); }
/// <summary>
/// Asynchronously responses to this HTTP request.
/// </summary>
/// <param name="response">Response to send.</param>
/// <returns>An asynchronous operation that is completed once response is sent.</returns>
pplx::task<void> reply(const http_response& response) const { return _m_impl->reply(response); }
/// <summary>
/// Asynchronously responses to this HTTP request.
/// </summary>
/// <param name="status">Response status code.</param>
/// <returns>An asynchronous operation that is completed once response is sent.</returns>
pplx::task<void> reply(http::status_code status) const { return reply(http_response(status)); }
/// <summary>
/// Responds to this HTTP request.
/// </summary>
/// <param name="status">Response status code.</param>
/// <param name="body_data">Json value to use in the response body.</param>
/// <returns>An asynchronous operation that is completed once response is sent.</returns>
pplx::task<void> reply(http::status_code status, const json::value& body_data) const
{
http_response response(status);
response.set_body(body_data);
return reply(response);
}
/// Responds to this HTTP request with a string.
/// Assumes the character encoding of the string is UTF-8.
/// </summary>
/// <param name="status">Response status code.</param>
/// <param name="body_data">UTF-8 string containing the text to use in the response body.</param>
/// <param name="content_type">Content type of the body.</param>
/// <returns>An asynchronous operation that is completed once response is sent.</returns>
/// <remarks>
// Callers of this function do NOT need to block waiting for the response to be
/// sent to before the body data is destroyed or goes out of scope.
/// </remarks>
pplx::task<void> reply(http::status_code status,
utf8string&& body_data,
const utf8string& content_type = "text/plain; charset=utf-8") const
{
http_response response(status);
response.set_body(std::move(body_data), content_type);
return reply(response);
}
/// <summary>
/// Responds to this HTTP request with a string.
/// Assumes the character encoding of the string is UTF-8.
/// </summary>
/// <param name="status">Response status code.</param>
/// <param name="body_data">UTF-8 string containing the text to use in the response body.</param>
/// <param name="content_type">Content type of the body.</param>
/// <returns>An asynchronous operation that is completed once response is sent.</returns>
/// <remarks>
// Callers of this function do NOT need to block waiting for the response to be
/// sent to before the body data is destroyed or goes out of scope.
/// </remarks>
pplx::task<void> reply(http::status_code status,
const utf8string& body_data,
const utf8string& content_type = "text/plain; charset=utf-8") const
{
http_response response(status);
response.set_body(body_data, content_type);
return reply(response);
}
/// <summary>
/// Responds to this HTTP request with a string. Assumes the character encoding
/// of the string is UTF-16 will perform conversion to UTF-8.
/// </summary>
/// <param name="status">Response status code.</param>
/// <param name="body_data">UTF-16 string containing the text to use in the response body.</param>
/// <param name="content_type">Content type of the body.</param>
/// <returns>An asynchronous operation that is completed once response is sent.</returns>
/// <remarks>
// Callers of this function do NOT need to block waiting for the response to be
/// sent to before the body data is destroyed or goes out of scope.
/// </remarks>
pplx::task<void> reply(http::status_code status,
const utf16string& body_data,
const utf16string& content_type = utility::conversions::to_utf16string("text/plain")) const
{
http_response response(status);
response.set_body(body_data, content_type);
return reply(response);
}
/// <summary>
/// Responds to this HTTP request.
/// </summary>
/// <param name="status">Response status code.</param>
/// <param name="content_type">A string holding the MIME type of the message body.</param>
/// <param name="body">An asynchronous stream representing the body data.</param>
/// <returns>A task that is completed once a response from the request is received.</returns>
pplx::task<void> reply(status_code status,
const concurrency::streams::istream& body,
const utility::string_t& content_type = _XPLATSTR("application/octet-stream")) const
{
http_response response(status);
response.set_body(body, content_type);
return reply(response);
}
/// <summary>
/// Responds to this HTTP request.
/// </summary>
/// <param name="status">Response status code.</param>
/// <param name="content_length">The size of the data to be sent in the body..</param>
/// <param name="content_type">A string holding the MIME type of the message body.</param>
/// <param name="body">An asynchronous stream representing the body data.</param>
/// <returns>A task that is completed once a response from the request is received.</returns>
pplx::task<void> reply(status_code status,
const concurrency::streams::istream& body,
utility::size64_t content_length,
const utility::string_t& content_type = _XPLATSTR("application/octet-stream")) const
{
http_response response(status);
response.set_body(body, content_length, content_type);
return reply(response);
}
/// <summary>
/// Signals the user (listener) when all the data for this request message has been received.
/// </summary>
/// <returns>A <c>task</c> which is completed when all of the response body has been received</returns>
pplx::task<http_request> content_ready() const
{
http_request req = *this;
return pplx::create_task(_m_impl->_get_data_available()).then([req](utility::size64_t) mutable { return req; });
}
/// <summary>
/// Gets a task representing the response that will eventually be sent.
/// </summary>
/// <returns>A task that is completed once response is sent.</returns>
pplx::task<http_response> get_response() const { return _m_impl->get_response(); }
/// <summary>
/// Generates a string representation of the message, including the body when possible.
/// Mainly this should be used for debugging purposes as it has to copy the
/// message body and doesn't have excellent performance.
/// </summary>
/// <returns>A string representation of this HTTP request.</returns>
/// <remarks>Note this function is synchronous and doesn't wait for the
/// entire message body to arrive. If the message body has arrived by the time this
/// function is called and it is has a textual Content-Type it will be included.
/// Otherwise just the headers will be present.</remarks>
utility::string_t to_string() const { return _m_impl->to_string(); }
/// <summary>
/// Sends a response if one has not already been sent.
/// </summary>
pplx::task<void> _reply_if_not_already(status_code status) { return _m_impl->_reply_if_not_already(status); }
/// <summary>
/// Gets the server context associated with this HTTP message.
/// </summary>
http::details::_http_server_context* _get_server_context() const { return _m_impl->_get_server_context(); }
/// <summary>
/// These are used for the initial creation of the HTTP request.
/// </summary>
static http_request _create_request(std::unique_ptr<http::details::_http_server_context> server_context)
{
return http_request(std::move(server_context));
}
void _set_server_context(std::unique_ptr<http::details::_http_server_context> server_context)
{
_m_impl->_set_server_context(std::move(server_context));
}
void _set_listener_path(const utility::string_t& path) { _m_impl->_set_listener_path(path); }
const std::shared_ptr<http::details::_http_request>& _get_impl() const { return _m_impl; }
void _set_cancellation_token(const pplx::cancellation_token& token) { _m_impl->set_cancellation_token(token); }
const pplx::cancellation_token& _cancellation_token() const { return _m_impl->cancellation_token(); }
void _set_base_uri(const http::uri& base_uri) { _m_impl->_set_base_uri(base_uri); }
private:
friend class http::details::_http_request;
friend class http::client::http_client;
http_request(std::unique_ptr<http::details::_http_server_context> server_context)
: _m_impl(std::make_shared<details::_http_request>(std::move(server_context)))
{
}
std::shared_ptr<http::details::_http_request> _m_impl;
};
namespace client
{
class http_pipeline;
}
/// <summary>
/// HTTP client handler class, used to represent an HTTP pipeline stage.
/// </summary>
/// <remarks>
/// When a request goes out, it passes through a series of stages, customizable by
/// the application and/or libraries. The default stage will interact with lower-level
/// communication layers to actually send the message on the network. When creating a client
/// instance, an application may add pipeline stages in front of the already existing
/// stages. Each stage has a reference to the next stage available in the <seealso cref="http_pipeline_stage::next_stage
/// Method"/> value.
/// </remarks>
class http_pipeline_stage : public std::enable_shared_from_this<http_pipeline_stage>
{
public:
http_pipeline_stage() = default;
http_pipeline_stage& operator=(const http_pipeline_stage&) = delete;
http_pipeline_stage(const http_pipeline_stage&) = delete;
virtual ~http_pipeline_stage() = default;
/// <summary>
/// Runs this stage against the given request and passes onto the next stage.
/// </summary>
/// <param name="request">The HTTP request.</param>
/// <returns>A task of the HTTP response.</returns>
virtual pplx::task<http_response> propagate(http_request request) = 0;
protected:
/// <summary>
/// Gets the next stage in the pipeline.
/// </summary>
/// <returns>A shared pointer to a pipeline stage.</returns>
const std::shared_ptr<http_pipeline_stage>& next_stage() const { return m_next_stage; }
/// <summary>
/// Gets a shared pointer to this pipeline stage.
/// </summary>
/// <returns>A shared pointer to a pipeline stage.</returns>
CASABLANCA_DEPRECATED("This api is redundant. Use 'shared_from_this()' directly instead.")
std::shared_ptr<http_pipeline_stage> current_stage() { return this->shared_from_this(); }
private:
friend class ::web::http::client::http_pipeline;
void set_next_stage(const std::shared_ptr<http_pipeline_stage>& next) { m_next_stage = next; }
std::shared_ptr<http_pipeline_stage> m_next_stage;
};
} // namespace http
} // namespace web
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