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construct/ircd/net_dns.cc

547 lines
12 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.
namespace ircd::net::dns
{
template<class T> static rfc1035::record *new_record(mutable_buffer &, const rfc1035::answer &);
static void handle_resolved(std::exception_ptr, const tag &, const answers &);
static void handle_resolve_A_ipport(const hostport &, const json::object &rr, opts, callback_ipport);
static void handle_resolve_SRV_ipport(const hostport &, const json::object &rr, opts, callback_ipport);
static void handle_resolve_one(const hostport &, const json::array &rr, callback_one);
}
decltype(ircd::net::dns::log)
ircd::net::dns::log
{
"net.dns"
};
decltype(ircd::net::dns::opts_default)
ircd::net::dns::opts_default;
//
// init
//
ircd::net::dns::init::init()
{
#ifdef HAVE_NETDB_H
static const int stay_open {true};
::setservent(stay_open);
#endif
assert(!resolver_instance);
resolver_instance = new resolver
{
handle_resolved
};
}
ircd::net::dns::init::~init()
noexcept
{
delete resolver_instance;
resolver_instance = nullptr;
#ifdef HAVE_NETDB_H
::endservent();
#endif
}
//
// net/dns.h
//
void
ircd::net::dns::resolve(const hostport &hp,
const opts &opts_,
callback_ipport callback)
{
if(unlikely(!port(hp) && !hp.service))
throw error
{
"Port or service is required for this query"
};
dns::opts opts(opts_);
opts.qtype = opts_.qtype?: 33; // default to SRV
if(opts.qtype == 33)
{
opts.nxdomain_exceptions = false;
net::dns::callback_one handler
{
std::bind(&handle_resolve_SRV_ipport, ph::_1, ph::_2, opts, std::move(callback))
};
resolve(hp, opts, std::move(handler));
}
else if(opts.qtype == 1 || opts.qtype == 28)
{
net::dns::callback_one handler
{
std::bind(&handle_resolve_A_ipport, ph::_1, ph::_2, opts, std::move(callback))
};
resolve(hp, opts, std::move(handler));
}
else throw error
{
"Query type:%u not valid for ipport result callback.", opts.qtype
};
}
void
ircd::net::dns::resolve(const hostport &hp,
const opts &opts,
callback_one callback)
{
if(unlikely(!opts.qtype))
throw error
{
"Query type is required; not specified; cannot be deduced here."
};
dns::callback handler
{
std::bind(&handle_resolve_one, ph::_1, ph::_2, std::move(callback))
};
resolve(hp, opts, std::move(handler));
}
void
ircd::net::dns::resolve(const hostport &hp_,
const opts &opts,
callback cb)
{
hostport hp(hp_);
if(unlikely(!opts.qtype))
throw error
{
"Query type is required; not specified; cannot be deduced here."
};
// Make any necessary attempt to translate a service name into a portnum.
if(likely(opts.service_port))
if(!port(hp) && service(hp))
port(hp) = service_port(service(hp), opts.proto);
// Try to satisfy from the cache first. This requires a ctx.
if(likely(ctx::current && opts.cache_check))
if(cache::get(hp, opts, cb))
return;
// Remote query will be made; register this callback as waiting for reply
assert(cb);
cache::waiting.emplace_back(hp, opts, std::move(cb));
// Check if there is already someone else waiting on the same query
const auto count
{
std::count_if(begin(cache::waiting), end(cache::waiting), []
(const auto &a)
{
return a == cache::waiting.back();
})
};
// When nobody else is already waiting on this query we have to submit it.
assert(count >= 1);
if(count == 1)
resolver_call(hp, opts);
}
/// Really assumptional and hacky right now. We're just assuming the SRV
/// key is the first two elements of a dot-delimited string which start
/// with underscores. If that isn't good enough in the future this will rot
/// and become a regression hazard.
ircd::string_view
ircd::net::dns::unmake_SRV_key(const string_view &key)
{
if(token_count(key, '.') < 3)
return key;
if(!startswith(token(key, '.', 0), '_'))
return key;
if(!startswith(token(key, '.', 1), '_'))
return key;
return tokens_after(key, '.', 1);
}
ircd::string_view
ircd::net::dns::make_SRV_key(const mutable_buffer &out,
const hostport &hp,
const opts &opts)
{
thread_local char tlbuf[2][rfc1035::NAME_BUFSIZE];
if(unlikely(!service(hp) && !opts.srv))
throw error
{
"Service name or query string option is required for SRV lookup."
};
assert(host(hp));
if(!service(hp))
{
assert(opts.srv);
return fmt::sprintf
{
out, "%s%s",
opts.srv,
tolower(tlbuf[1], host(hp))
};
}
assert(service(hp));
return fmt::sprintf
{
out, "_%s._%s.%s",
tolower(tlbuf[0], service(hp)),
opts.proto,
tolower(tlbuf[1], host(hp)),
};
}
ircd::json::object
ircd::net::dns::random_choice(const json::array &rrs)
{
const size_t &count
{
rrs.size()
};
if(!count)
return json::object{};
const auto choice
{
rand::integer(0, count - 1)
};
assert(choice < count);
const json::object &rr
{
rrs[choice]
};
return rr;
}
bool
ircd::net::dns::expired(const json::object &rr,
const time_t &rr_ts)
{
const seconds &min_seconds
{
cache::min_ttl
};
const seconds &err_seconds
{
cache::error_ttl
};
const time_t &min
{
is_error(rr)?
err_seconds.count():
min_seconds.count()
};
return expired(rr, rr_ts, min);
}
bool
ircd::net::dns::expired(const json::object &rr,
const time_t &rr_ts,
const time_t &min_ttl)
{
const auto &ttl
{
get_ttl(rr)
};
return rr_ts + std::max(ttl, min_ttl) < ircd::time();
}
time_t
ircd::net::dns::get_ttl(const json::object &rr)
{
return rr.get<time_t>("ttl", 0L);
}
bool
ircd::net::dns::is_empty(const json::array &rrs)
{
return std::all_of(begin(rrs), end(rrs), []
(const json::object &rr)
{
return is_empty(rr);
});
}
bool
ircd::net::dns::is_empty(const json::object &rr)
{
return empty(rr) || (rr.has("ttl") && size(rr) == 1);
}
bool
ircd::net::dns::is_error(const json::array &rrs)
{
return !std::none_of(begin(rrs), end(rrs), []
(const json::object &rr)
{
return is_error(rr);
});
}
bool
ircd::net::dns::is_error(const json::object &rr)
{
return rr.has("error");
}
//
// internal
//
void
ircd::net::dns::handle_resolve_one(const hostport &hp,
const json::array &rrs,
callback_one callback)
{
const json::object &rr
{
random_choice(rrs)
};
callback(hp, rr);
}
void
ircd::net::dns::handle_resolve_SRV_ipport(const hostport &hp,
const json::object &rr,
opts opts,
callback_ipport callback)
{
const json::string &error
{
rr.get("error")
};
const hostport &target
{
rr.has("tgt")?
rstrip(unquote(rr.at("tgt")), '.'):
host(hp),
rr.has("port")?
rr.get<uint16_t>("port"):
!error?
port(hp):
uint16_t(0)
};
if(error)
{
static const ipport empty;
const auto eptr
{
make_exception_ptr<rfc1035::error>(exception::hide_name, "%s", error)
};
return callback(eptr, target, empty);
}
opts.qtype = 1;
opts.nxdomain_exceptions = true;
net::dns::callback_one handler
{
std::bind(&handle_resolve_A_ipport, ph::_1, ph::_2, opts, std::move(callback))
};
resolve(target, opts, std::move(handler));
}
void
ircd::net::dns::handle_resolve_A_ipport(const hostport &hp,
const json::object &rr,
const opts opts,
const callback_ipport callback)
{
const json::string &error
{
rr.get("error")
};
const json::string &ip
{
opts.qtype == 28?
rr.get("ip", ":::0"_sv):
rr.get("ip", "0.0.0.0"_sv)
};
const ipport &ipport
{
ip, port(hp)
};
const auto eptr
{
!empty(error)?
make_exception_ptr<rfc1035::error>(exception::hide_name, "%s", error):
!ipport?
make_exception_ptr<net::error>("Host has no A record."):
std::exception_ptr{}
};
callback(eptr, hp, ipport);
}
/// Called back from the dns::resolver with a vector of answers to the
/// question (we get the whole tag here).
///
/// This is being invoked on the dns::resolver's receiver context stack
/// under lock preventing any other activity with the resolver.
///
/// We process these results and insert them into our cache. The cache
/// insertion involves sending a message to the DNS room. Matrix hooks
/// on that room will catch this message for the user(s) which initiated
/// this query; we don't callback or deal with said users here.
///
void
ircd::net::dns::handle_resolved(std::exception_ptr eptr,
const tag &tag,
const answers &an)
try
{
static const size_t recsz(1024);
thread_local char recbuf[recsz * MAX_COUNT];
thread_local std::array<const rfc1035::record *, MAX_COUNT> record;
size_t i(0);
mutable_buffer buf{recbuf};
for(; i < an.size(); ++i) switch(an.at(i).qtype)
{
case 1:
record.at(i) = new_record<rfc1035::record::A>(buf, an.at(i));
continue;
case 5:
record.at(i) = new_record<rfc1035::record::CNAME>(buf, an.at(i));
continue;
case 28:
record.at(i) = new_record<rfc1035::record::AAAA>(buf, an.at(i));
continue;
case 33:
record.at(i) = new_record<rfc1035::record::SRV>(buf, an.at(i));
continue;
default:
record.at(i) = new_record<rfc1035::record>(buf, an.at(i));
continue;
}
// Sort the records by type so we can create smaller vectors to send to the
// cache. nulls from running out of space should be pushed to the back.
std::sort(begin(record), begin(record) + an.size(), []
(const auto *const &a, const auto *const &b)
{
if(!a)
return false;
if(!b)
return true;
return a->type < b->type;
});
//TODO: don't send cache ephemeral rcodes
// Bail on error here; send the cache the message
if(eptr)
{
cache::put(tag.hp, tag.opts, tag.rcode, what(eptr));
return;
}
// Branch on no records with no error
if(!i)
{
static const records empty;
cache::put(tag.hp, tag.opts, empty);
return;
}
// Iterate the record vector which was sorted by type;
// send the cache an individual view of each type since
// the cache is organized by record type.
size_t s(0), e(0);
auto last(record.at(e)->type);
for(++e; e <= i; ++e)
{
if(e < i && record.at(e)->type == last)
continue;
const vector_view<const rfc1035::record *> records
{
record.data() + s, record.data() + e
};
assert(!empty(records));
cache::put(tag.hp, tag.opts, records);
s = e;
if(e < i)
last = record.at(e)->type;
}
// We have to send something to the cache with the same type
// as the query, otherwise our user will never get a response
// to what they're waiting for.
bool has_tag_qtype{false};
for(size_t i(0); i < an.size() && !has_tag_qtype; ++i)
has_tag_qtype = an.at(i).qtype == tag.opts.qtype;
if(!has_tag_qtype)
{
static const records empty;
cache::put(tag.hp, tag.opts, empty);
}
}
catch(const std::exception &e)
{
log::error
{
log, "handle resolved: tag[%u] :%s",
tag.id,
e.what()
};
throw;
}
template<class type>
ircd::rfc1035::record *
ircd::net::dns::new_record(mutable_buffer &buf,
const rfc1035::answer &answer)
{
if(unlikely(sizeof(type) > size(buf)))
return nullptr;
void *const pos(data(buf));
consume(buf, sizeof(type));
return new (pos) type(answer);
}