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construct/ircd/m/id.cc
2018-02-05 21:24:34 -08:00

639 lines
13 KiB
C++

// 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.
#include <ircd/spirit.h>
#include <ircd/m/m.h>
namespace ircd::m
{
namespace spirit = boost::spirit;
namespace qi = spirit::qi;
namespace karma = spirit::karma;
namespace ascii = qi::ascii;
using qi::lit;
using qi::string;
using qi::char_;
using qi::short_;
using qi::ushort_;
using qi::int_;
using qi::long_;
using qi::repeat;
using qi::omit;
using qi::raw;
using qi::attr;
using qi::eps;
using qi::attr_cast;
using karma::lit;
using karma::char_;
using karma::long_;
using karma::double_;
using karma::bool_;
using karma::maxwidth;
using karma::eps;
using karma::attr_cast;
[[noreturn]] void failure(const qi::expectation_failure<const char *> &, const string_view &);
}
template<class it>
struct ircd::m::id::input
:qi::grammar<it, spirit::unused_type>
{
template<class R = spirit::unused_type, class... S> using rule = qi::rule<it, R, S...>;
// Sigils
const rule<> event_id_sigil { lit(char(ircd::m::id::EVENT)) ,"event_id sigil" };
const rule<> user_id_sigil { lit(char(ircd::m::id::USER)) ,"user_id sigil" };
const rule<> room_id_sigil { lit(char(ircd::m::id::ROOM)) ,"room_id sigil" };
const rule<> room_alias_sigil { lit(char(ircd::m::id::ROOM_ALIAS)) ,"room_alias sigil" };
const rule<> group_id_sigil { lit(char(ircd::m::id::GROUP)) ,"group_id sigil" };
const rule<> origin_sigil { lit(char(ircd::m::id::ORIGIN)) ,"origin sigil" };
const rule<enum sigil> sigil
{
event_id_sigil |
user_id_sigil |
room_id_sigil |
room_alias_sigil |
group_id_sigil |
origin_sigil
,"sigil"
};
// character of a localpart; must not contain ':' because that's the terminator
const rule<> localpart_char
{
char_ - ':'
,"localpart character"
};
// a localpart is zero or more localpart characters
const rule<> localpart
{
*(localpart_char)
,"localpart"
};
// character of a non-historical user_id localpart
const rule<> user_id_char
{
char_("a-z/_=.\x2D") // x2d is '-'
,"user_id character"
};
// a user_id localpart is 1 or more user_id localpart characters
const rule<> user_id_localpart
{
+user_id_char
,"user_id localpart"
};
// a prefix is a sigil and a localpart; user_id prefix
const rule<> user_id_prefix
{
user_id_sigil >> user_id_localpart
,"user_id prefix"
};
// a prefix is a sigil and a localpart; proper invert of user_id prefix
const rule<> non_user_id_prefix
{
((!user_id_sigil) > sigil) >> localpart
,"non user_id prefix"
};
// a prefix is a sigil and a localpart
const rule<> prefix
{
user_id_prefix | non_user_id_prefix
,"prefix"
};
//TODO: XXX-----------------
//TODO: XXX start an ircd::net grammar; move to net::
/*
rule<string_view> authority
{
//TODO: https://tools.ietf.org/html/rfc3986#section-3.2
-('/' >> '/') >> raw[*(char_ - '/')] >> '/'
};
*/
const rule<> port
{
ushort_
,"port"
};
const rule<> ip6_address
{
//TODO: XXX
*char_("0-9a-fA-F:")
,"ip6 address"
};
const rule<> ip6_literal
{
'[' >> ip6_address >> ']'
,"ip6 literal"
};
const rule<> dns_name
{
ip6_literal | *(char_ - ':')
,"dns name"
};
//TODO: /XXX-----------------
/// (Appendix 4.1) Server Name
/// A homeserver is uniquely identified by its server name. This value
/// is used in a number of identifiers, as described below. The server
/// name represents the address at which the homeserver in question can
/// be reached by other homeservers. The complete grammar is:
/// `server_name = dns_name [ ":" port]`
/// `dns_name = host`
/// `port = *DIGIT`
/// where host is as defined by RFC3986, section 3.2.2. Examples of valid
/// server names are:
/// `matrix.org`
/// `matrix.org:8888`
/// `1.2.3.4` (IPv4 literal)
/// `1.2.3.4:1234` (IPv4 literal with explicit port)
/// `[1234:5678::abcd]` (IPv6 literal)
/// `[1234:5678::abcd]:5678` (IPv6 literal with explicit port)
const rule<> server_name
{
dns_name >> -(':' >> port)
,"server name"
};
const rule<> mxid
{
prefix >> ':' >> server_name
,"mxid"
};
input()
:input::base_type{rule<>{}}
{}
};
template<class it>
struct ircd::m::id::output
:karma::grammar<it, spirit::unused_type>
{
template<class T = spirit::unused_type> using rule = karma::rule<it, T>;
output()
:output::base_type{rule<>{}}
{}
};
struct ircd::m::id::parser
:input<const char *>
{
string_view operator()(const id::sigil &, const string_view &id) const;
string_view operator()(const string_view &id) const;
}
const ircd::m::id::parser;
ircd::string_view
ircd::m::id::parser::operator()(const id::sigil &sigil,
const string_view &id)
const try
{
const rule<string_view> view_mxid
{
raw[&lit(char(sigil)) > mxid]
,"mxid"
};
string_view out;
const char *start{id.data()};
const char *const stop{id.data() + id.size()};
qi::parse(start, stop, eps > view_mxid, out);
return out;
}
catch(const qi::expectation_failure<const char *> &e)
{
failure(e, "mxid");
}
ircd::string_view
ircd::m::id::parser::operator()(const string_view &id)
const try
{
static const rule<string_view> view_mxid
{
raw[mxid]
};
string_view out;
const char *start{id.data()};
const char *const stop{id.data() + id.size()};
qi::parse(start, stop, eps > view_mxid, out);
return out;
}
catch(const qi::expectation_failure<const char *> &e)
{
failure(e, "mxid");
}
struct ircd::m::id::validator
:input<const char *>
{
void operator()(const id::sigil &sigil, const string_view &id) const;
void operator()(const string_view &id) const;
}
const ircd::m::id::validator;
void
ircd::m::id::validator::operator()(const string_view &id)
const try
{
const char *start{id.data()};
const char *const stop{id.data() + id.size()};
qi::parse(start, stop, eps > mxid);
}
catch(const qi::expectation_failure<const char *> &e)
{
failure(e, "mxid");
}
void
ircd::m::id::validator::operator()(const id::sigil &sigil,
const string_view &id)
const try
{
const rule<string_view> valid_mxid
{
&lit(char(sigil)) > mxid
,"mxid"
};
const char *start{id.data()};
const char *const stop{id.data() + id.size()};
qi::parse(start, stop, eps > valid_mxid);
}
catch(const qi::expectation_failure<const char *> &e)
{
failure(e, reflect(sigil));
}
//TODO: abstract this pattern with ircd::json::printer in ircd/spirit.h
struct ircd::m::id::printer
:output<const char *>
{
static string_view random_timebased(const id::sigil &, const mutable_buffer &);
static string_view random_prefixed(const id::sigil &, const string_view &prefix, const mutable_buffer &);
template<class generator,
class attribute>
bool operator()(char *&out, char *const &stop, generator&& g, attribute&& a) const
{
const auto throws{[&out, &stop]
{
throw INVALID_MXID
{
"Failed to print attribute '%s' generator '%s' (%zd bytes in buffer)",
demangle<decltype(a)>(),
demangle<decltype(g)>(),
size_t(stop - out)
};
}};
const auto gg
{
maxwidth(size_t(stop - out))[std::forward<generator>(g)] | eps[throws]
};
return karma::generate(out, gg, std::forward<attribute>(a));
}
template<class generator>
bool operator()(char *&out, char *const &stop, generator&& g) const
{
const auto throws{[&out, &stop]
{
throw INVALID_MXID
{
"Failed to print generator '%s' (%zd bytes in buffer)",
demangle<decltype(g)>(),
size_t(stop - out)
};
}};
const auto gg
{
maxwidth(size_t(stop - out))[std::forward<generator>(g)] | eps[throws]
};
return karma::generate(out, gg);
}
template<class... args>
bool operator()(mutable_buffer &out, args&&... a) const
{
return operator()(buffer::begin(out), buffer::end(out), std::forward<args>(a)...);
}
}
const ircd::m::id::printer;
ircd::string_view
ircd::m::id::printer::random_prefixed(const id::sigil &sigil,
const string_view &prefix,
const mutable_buffer &buf)
{
using buffer::data;
const auto len
{
fmt::sprintf(buf, "%c%s%u", char(sigil), prefix, rand::integer())
};
return { data(buf), size_t(len) };
}
ircd::string_view
ircd::m::id::printer::random_timebased(const id::sigil &sigil,
const mutable_buffer &buf)
{
using buffer::data;
using buffer::size;
const auto utime(microtime());
const auto len
{
snprintf(data(buf), size(buf), "%c%zd%06d", char(sigil), utime.first, utime.second)
};
return { data(buf), size_t(len) };
}
//
// id
//
ircd::m::id::id(const string_view &id)
:string_view{id}
{
validate(m::sigil(id), id);
}
ircd::m::id::id(const id::sigil &sigil,
const string_view &id)
:string_view{id}
{
validate(sigil, id);
}
ircd::m::id::id(const enum sigil &sigil,
const mutable_buffer &buf,
const string_view &local,
const string_view &host)
:string_view{[&sigil, &buf, &local, &host]
{
const string_view src
{
buffer::data(buf), size_t(fmt::sprintf(buf, "%c%s:%s", char(sigil), local, host))
};
return parser(sigil, src);
}()}
{
}
ircd::m::id::id(const id::sigil &sigil,
const mutable_buffer &buf,
const string_view &id)
:string_view{[&sigil, &buf, &id]
{
const auto len
{
buffer::data(buf) != id.data()?
strlcpy(buffer::data(buf), id, buffer::size(buf)):
id.size()
};
const string_view src
{
buffer::data(buf), len
};
return parser(sigil, src);
}()}
{
}
ircd::m::id::id(const enum sigil &sigil,
const mutable_buffer &buf,
const generate_t &,
const string_view &host)
:string_view{[&]
{
//TODO: output grammar
char name[64]; switch(sigil)
{
case sigil::USER:
printer::random_prefixed(sigil::USER, "guest", name);
break;
case sigil::ROOM_ALIAS:
printer::random_prefixed(sigil::ROOM_ALIAS, "", name);
break;
default:
printer::random_timebased(sigil, name);
break;
};
const auto len
{
fmt::sprintf(buf, "%s:%s", name, host)
};
return string_view { buffer::data(buf), size_t(len) };
}()}
{
}
uint16_t
ircd::m::id::hostport()
const try
{
//TODO: grammar
const auto port
{
split(host(), ':').second
};
return port? lex_cast<uint16_t>(port) : 8448;
}
catch(const std::exception &e)
{
return 8448;
}
ircd::string_view
ircd::m::id::hostname()
const
{
//TODO: grammar
return rsplit(host(), ':').first;
}
ircd::string_view
ircd::m::id::name()
const
{
//TODO: grammar
return lstrip(local(), at(0));
}
ircd::string_view
ircd::m::id::host()
const
{
//TODO: grammar
return split(*this, ':').second;
}
ircd::string_view
ircd::m::id::local()
const
{
//TODO: grammar
return split(*this, ':').first;
}
bool
ircd::m::my(const id &id)
{
return my_host(id.host());
}
void
ircd::m::validate(const id::sigil &sigil,
const string_view &id)
try
{
id::validator(sigil, id);
}
catch(const std::exception &e)
{
throw INVALID_MXID
{
"Not a valid '%s' mxid: %s",
reflect(sigil),
e.what()
};
}
bool
ircd::m::valid(const id::sigil &sigil,
const string_view &id)
noexcept try
{
id::validator(sigil, id);
return true;
}
catch(...)
{
return false;
}
bool
ircd::m::valid_local(const id::sigil &sigil,
const string_view &id)
{
static const auto test
{
&lit(char(sigil)) > m::id::parser.prefix
};
const char *start{id.data()};
const char *const stop{id.data() + id.size()};
return qi::parse(start, stop, test);
}
bool
ircd::m::valid_sigil(const string_view &s)
try
{
return valid_sigil(s.at(0));
}
catch(const std::out_of_range &e)
{
return false;
}
bool
ircd::m::valid_sigil(const char &c)
{
const char *start{&c};
const char *const stop{start + 1};
return qi::parse(start, stop, id::parser.sigil);
}
enum ircd::m::id::sigil
ircd::m::sigil(const string_view &s)
try
{
return sigil(s.at(0));
}
catch(const std::out_of_range &e)
{
throw BAD_SIGIL("no sigil provided");
}
enum ircd::m::id::sigil
ircd::m::sigil(const char &c)
{
id::sigil ret;
const char *start{&c};
const char *const stop{start + 1};
if(!qi::parse(start, stop, id::parser.sigil, ret))
throw BAD_SIGIL("'%c' is not a valid sigil", c);
return ret;
}
const char *
ircd::m::reflect(const enum id::sigil &c)
{
switch(c)
{
case id::EVENT: return "EVENT";
case id::USER: return "USER";
case id::ROOM: return "ROOM";
case id::ROOM_ALIAS: return "ROOM_ALIAS";
case id::GROUP: return "GROUP";
case id::ORIGIN: return "ORIGIN";
}
return "?????";
}
void
ircd::m::failure(const qi::expectation_failure<const char *> &e,
const string_view &goal)
{
auto rule
{
ircd::string(e.what_)
};
throw INVALID_MXID
{
"Not a valid %s because of an invalid %s.", goal, between(rule, '<', '>')
};
}