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construct/include/ircd/m/id.h

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// Matrix Construct
//
// Copyright (C) Matrix Construct Developers, Authors & Contributors
// Copyright (C) 2016-2018 Jason Volk <jason@zemos.net>
//
// Permission to use, copy, modify, and/or distribute this software for any
// purpose with or without fee is hereby granted, provided that the above
// copyright notice and this permission notice is present in all copies. The
// full license for this software is available in the LICENSE file.
#pragma once
#define HAVE_IRCD_M_ID_H
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namespace ircd::m
{
struct id;
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IRCD_M_EXCEPTION(error, INVALID_MXID, http::BAD_REQUEST)
IRCD_M_EXCEPTION(INVALID_MXID, BAD_SIGIL, http::BAD_REQUEST)
bool my(const id &);
}
/// (Appendix 4.2) Common Identifier Format
///
/// The Matrix protocol uses a common format to assign unique identifiers to
/// a number of entities, including users, events and rooms. Each identifier
/// takes the form: `&localpart:domain` where & represents a 'sigil' character;
/// domain is the server name of the homeserver which allocated the identifier,
/// and localpart is an identifier allocated by that homeserver. The precise
/// grammar defining the allowable format of an identifier depends on the type
/// of identifier.
///
/// This structure is an interface to a string representing an mxid. The m::id
/// itself is just a string_view over some existing data. m::id::buf is an
/// m::id with an internal array providing the buffer.
///
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struct ircd::m::id
:string_view
{
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struct event;
struct user;
struct room;
struct room_alias;
struct group;
struct origin;
struct device;
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enum sigil :char;
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template<class T, size_t SIZE = 256> struct buf;
template<class it> struct input;
template<class it> struct output;
struct parser;
struct printer;
struct validator;
struct parser static const parser;
struct printer static const printer;
struct validator static const validator;
public:
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// Extract elements
string_view local() const;
string_view host() const;
string_view name() const;
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string_view hostname() const;
uint16_t hostport() const;
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IRCD_USING_OVERLOAD(generate, m::generate);
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id(const enum sigil &, const mutable_buffer &, const generate_t &, const string_view &host);
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id(const enum sigil &, const mutable_buffer &, const string_view &local, const string_view &host);
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id(const enum sigil &, const mutable_buffer &, const string_view &id);
id(const enum sigil &, const string_view &id);
id(const string_view &id);
id() = default;
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};
/// (4.2) The sigil characters
enum ircd::m::id::sigil
:char
{
USER = '@', ///< User ID (4.2.1)
EVENT = '$', ///< Event ID (4.2.2)
ROOM = '!', ///< Room ID (4.2.2)
ROOM_ALIAS = '#', ///< Room alias (4.2.3)
GROUP = '+', ///< Group ID (experimental)
ORIGIN = ':', ///< Origin ID (experimental)
DEVICE = '%', ///< Device ID (experimental)
};
/// (Appendix 4.2.1) User Identifiers
///
/// Users within Matrix are uniquely identified by their Matrix user ID. The
/// user ID is namespaced to the homeserver which allocated the account and
/// has the form: `@localpart:domain` The localpart of a user ID is an opaque
/// identifier for that user. It MUST NOT be empty, and MUST contain only the
/// characters a-z, 0-9, ., _, =, -, and /. The domain of a user ID is the
/// server name of the homeserver which allocated the account. The length of
/// a user ID, including the @ sigil and the domain, MUST NOT exceed 255
/// characters.
///
struct ircd::m::id::user
:ircd::m::id
{
using buf = m::id::buf<user>;
template<class... args> user(args&&... a) :m::id{USER, std::forward<args>(a)...} {}
user() = default;
};
/// (Appendix 4.2.2) Room IDs and Event IDs
///
/// An event has exactly one event ID. An event ID has the format:
/// `$opaque_id:domain` The domain of an event ID is the server name of the
/// homeserver which created the event. The domain is used only for namespacing
/// to avoid the risk of clashes of identifiers between different homeservers.
/// There is no implication that the event in question is still available at
/// the corresponding homeserver. Event IDs are case-sensitive. They are not
/// meant to be human readable.
///
struct ircd::m::id::event
:ircd::m::id
{
using closure = std::function<void (const id::event &)>;
using closure_bool = std::function<bool (const id::event &)>;
using buf = m::id::buf<event>;
template<class... args> event(args&&... a) :m::id{EVENT, std::forward<args>(a)...} {}
event() = default;
};
/// (Appendix 4.2.2) Room IDs and Event IDs
///
/// A room has exactly one room ID. A room ID has the format:
/// `!opaque_id:domain` The domain of a room ID is the server name of the
/// homeserver which created the room. The domain is used only for namespacing
/// to avoid the risk of clashes of identifiers between different homeservers.
/// There is no implication that the room in question is still available at
/// the corresponding homeserver. Room IDs are case-sensitive. They are not
/// meant to be human readable.
///
struct ircd::m::id::room
:ircd::m::id
{
using closure = std::function<void (const id::room &)>;
using closure_bool = std::function<bool (const id::room &)>;
using buf = m::id::buf<room>;
template<class... args> room(args&&... a) :m::id{ROOM, std::forward<args>(a)...} {}
room() = default;
};
/// (Appendix 4.2.3) Room Aliases
/// A room may have zero or more aliases. A room alias has the format:
/// `#room_alias:domain` The domain of a room alias is the server name of the
/// homeserver which created the alias. Other servers may contact this
/// homeserver to look up the alias. Room aliases MUST NOT exceed 255 bytes
/// (including the # sigil and the domain).
///
struct ircd::m::id::room_alias
:ircd::m::id
{
using buf = m::id::buf<room_alias>;
template<class... args> room_alias(args&&... a) :m::id{ROOM_ALIAS, std::forward<args>(a)...} {}
room_alias() = default;
};
/// Group ID (EXPERIMENTAL)
///
struct ircd::m::id::group
:ircd::m::id
{
using buf = m::id::buf<group>;
template<class... args> group(args&&... a) :m::id{GROUP, std::forward<args>(a)...} {}
group() = default;
};
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/// Origin ID (EXPERIMENTAL)
///
struct ircd::m::id::origin
:ircd::m::id
{
using buf = m::id::buf<origin>;
template<class... args> origin(args&&... a) :m::id{ORIGIN, std::forward<args>(a)...} {}
origin() = default;
};
/// Device ID (EXPERIMENTAL)
///
struct ircd::m::id::device
:ircd::m::id
{
using buf = m::id::buf<device>;
template<class... args> device(args&&... a) :m::id{DEVICE, std::forward<args>(a)...} {}
device() = default;
};
// Utilities
namespace ircd::m
{
id::sigil sigil(const char &c);
id::sigil sigil(const string_view &id);
const char *reflect(const id::sigil &);
// Checks
bool valid_sigil(const char &c);
bool valid_sigil(const string_view &id);
bool valid(const id::sigil &, const string_view &) noexcept;
bool valid_local(const id::sigil &, const string_view &); // Local part is valid
void validate(const id::sigil &, const string_view &); // valid() | throws
}
/// ID object backed by an internal buffer of default worst-case size.
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///
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template<class T,
size_t MAX = 256>
struct ircd::m::id::buf
:T
{
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static constexpr const size_t SIZE
{
MAX
};
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private:
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fixed_buffer<mutable_buffer, SIZE> b;
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public:
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operator const fixed_buffer<mutable_buffer, SIZE> &() const
{
return b;
}
operator mutable_buffer()
{
return b;
}
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template<class... args>
buf(args&&... a)
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:T{b, std::forward<args>(a)...}
{}
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buf() = default;
buf(buf &&other) noexcept
:T{b, std::move(other)}
{}
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buf(const buf &other)
:T{b, other}
{}
buf &operator=(const buf &other)
{
static_cast<T &>(*this) = T{b, other};
return *this;
}
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buf &operator=(buf &&other) noexcept
{
static_cast<T &>(*this) = T{b, std::move(other)};
return *this;
}
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buf &operator=(const string_view &s)
{
static_cast<T &>(*this) = T{b, s};
return *this;
}
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};