mirror of
https://github.com/matrix-construct/construct
synced 2024-11-09 11:31:11 +01:00
112 lines
5.4 KiB
C++
112 lines
5.4 KiB
C++
// Matrix Construct
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//
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// Copyright (C) Matrix Construct Developers, Authors & Contributors
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// Copyright (C) 2016-2019 Jason Volk <jason@zemos.net>
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//
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// Permission to use, copy, modify, and/or distribute this software for any
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// purpose with or without fee is hereby granted, provided that the above
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// copyright notice and this permission notice is present in all copies. The
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// full license for this software is available in the LICENSE file.
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#pragma once
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#define HAVE_IRCD_RESOURCE_RESPONSE_H
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/// Construction of a resource::response transmits result data to the client.
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///
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/// A resource::response is required for every request, which is why the
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/// return value of every resource method handler is a resource::response type.
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/// This return value requirement has no other significance, and the response
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/// object has no useful semantics.
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///
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/// The construction of a response object will send the response head and
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/// content to the client. The call will probably yield the ircd::ctx. When the
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/// construction is complete the response has been sent to the client (or copied
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/// entirely to the kernel).
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///
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/// The lowest level ctors without a content argument allow for sending just the
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/// response HTTP head to the client. The developer has the option to manually
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/// write the content to the client's socket following the transmission of the
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/// head. It is still advised for semantic reasons that the resource::response
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/// object which transmitted the head still be returned from the handler.
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///
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/// Note that handlers can always throw an exception, and the resource
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/// framework will facilitate the response there.
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///
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struct ircd::resource::response
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{
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struct chunked;
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static const size_t HEAD_BUF_SZ;
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static conf::item<std::string> access_control_allow_origin;
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response(client &, const http::code &, const string_view &content_type, const size_t &content_length, const string_view &headers = {});
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response(client &, const string_view &str, const string_view &content_type, const http::code &, const vector_view<const http::header> &);
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response(client &, const string_view &str, const string_view &content_type, const http::code & = http::OK, const string_view &headers = {});
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response(client &, const json::object &str, const http::code & = http::OK);
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response(client &, const json::array &str, const http::code & = http::OK);
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response(client &, const json::members & = {}, const http::code & = http::OK);
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response(client &, const json::value &, const http::code & = http::OK);
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response(client &, const json::iov &, const http::code & = http::OK);
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response(client &, const http::code &, const json::members &);
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response(client &, const http::code &, const json::value &);
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response(client &, const http::code &, const json::iov &);
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response(client &, const http::code &);
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response() = default;
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};
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/// This device streams a chunked encoded response to a request. This is
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/// preferred rather than conducting chunked encoding manually with the above
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/// resource::response (that's what this is for).
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///
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/// Basic usage of this device involves construction of a named instance,
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/// upon which headers are immediately sent to the client opening the chunked
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/// encoding session. First know that if a handler throws an exception
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/// during a chunked encoding session, the client connection is immediately
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/// terminated as hard as possible (disrupting any pipelining, etc).
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///
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/// Once the instance is constructed the developer calls write() to write a
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/// chunk to the socket. Each call to write() directly sends a chunk and
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/// yields the ctx until it is transmitted.
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///
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/// The direct use of this object is rare, instead it is generally paired with
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/// something like json::stack, which streams chunks of JSON. To facilitate
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/// this type of pairing and real world use, instances of this object contain
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/// a simple buffered flush-callback system.
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//
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/// By default this object allocates a buffer to facilitate the chunked
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/// response and to satisfy the majority pattern of allocating this same
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/// buffer immediately preceding construction. A function pointer can also
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/// be passed on construction to act as a "flusher." These features are
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/// best suited for use by json::stack. A developer wishing to conduct chunked
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/// encoding with some other content has the option of setting a zero buffer
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/// size on construction.
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///
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struct ircd::resource::response::chunked
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:resource::response
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{
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static conf::item<size_t> default_buffer_size;
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client *c {nullptr};
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unique_buffer<mutable_buffer> buf;
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size_t flushed {0};
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size_t wrote {0};
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uint count {0};
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bool finished {false};
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size_t write(const const_buffer &chunk, const bool &ignore_empty = true);
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const_buffer flush(const const_buffer &);
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bool finish();
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std::function<const_buffer (const const_buffer &)> flusher();
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chunked(client &, const http::code &, const string_view &content_type, const string_view &headers = {}, const size_t &buffer_size = default_buffer_size);
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chunked(client &, const http::code &, const string_view &content_type, const vector_view<const http::header> &, const size_t &buffer_size = default_buffer_size);
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chunked(client &, const http::code &, const vector_view<const http::header> &, const size_t &buffer_size = default_buffer_size);
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chunked(client &, const http::code &, const size_t &buffer_size = default_buffer_size);
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chunked() = default;
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chunked(chunked &&) = delete;
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chunked(const chunked &) = delete;
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chunked &operator=(chunked &&) = delete;
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chunked &operator=(const chunked &&) = delete;
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~chunked() noexcept;
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};
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