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construct/matrix/keys.cc

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14 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.
std::ostream &
ircd::m::pretty_oneline(std::ostream &s,
const m::keys &keys)
{
s << json::get<"server_name"_>(keys)
<< ' ';
char smbuf[32];
s << smalldate(smbuf, json::get<"valid_until_ts"_>(keys) / 1000L)
<< " (" << json::get<"valid_until_ts"_>(keys) << ")"
<< ' ';
for(const auto &[domain, verify_key_] : json::get<"verify_keys"_>(keys))
{
s << "key[ " << domain << ' ';
for(const auto &[key_id, verify_key] : json::object(verify_key_))
s << key_id << ' ';
s << "] ";
}
for(const auto &[domain, signature_] : json::get<"signatures"_>(keys))
{
s << "sig[ " << domain << ' ';
for(const auto &[key_id, signature] : json::object(signature_))
s << key_id << ' ';
s << "] ";
}
return s;
}
std::ostream &
ircd::m::pretty(std::ostream &s,
const m::keys &keys)
{
s << std::setw(16) << std::right << "server name "
<< json::get<"server_name"_>(keys)
<< '\n';
char tmbuf[64];
s << std::setw(16) << std::right << "valid until "
<< timef(tmbuf, json::get<"valid_until_ts"_>(keys) / 1000, ircd::localtime)
<< " (" << json::get<"valid_until_ts"_>(keys) << ")"
<< '\n';
for(const auto &[domain, verify_key_] : json::get<"verify_keys"_>(keys))
for(const auto &[key_id, verify_key] : json::object(verify_key_))
s << std::setw(16) << std::right << "[verify_key] "
<< domain << ' '
<< key_id << ' '
<< unquote(verify_key) << '\n';
for(const auto &[domain, signature_] : json::get<"signatures"_>(keys))
for(const auto &[key_id, signature] : json::object(signature_))
s << std::setw(16) << std::right << "[signature] "
<< domain << ' '
<< key_id << ' '
<< unquote(signature) << '\n';
for(const auto &[domain, old_verify_key_] : json::get<"old_verify_keys"_>(keys))
for(const auto &[key_id, old_verify_key] : json::object(old_verify_key_))
s << std::setw(16) << std::right << "[old_verify_key] "
<< domain << ' '
<< key_id << ' '
<< unquote(old_verify_key) << '\n';
return s;
}
bool
ircd::m::verify(const m::keys &keys,
std::nothrow_t)
noexcept try
{
verify(keys);
return true;
}
catch(const std::exception &e)
{
log::error
{
m::log, "key verification for '%s' failed :%s",
json::get<"server_name"_>(keys, "<no server name>"_sv),
e.what()
};
return false;
}
void
ircd::m::verify(const m::keys &keys)
{
const json::object &verify_keys
{
at<"verify_keys"_>(keys)
};
const string_view &key_id
{
!empty(verify_keys)?
begin(verify_keys)->first:
string_view{}
};
const json::object &key
{
!empty(verify_keys)?
begin(verify_keys)->second:
string_view{}
};
const ed25519::pk pk
{
[&key](auto&& pk)
{
b64::decode(pk, unquote(key.at("key")));
}
};
const json::object &signatures
{
at<"signatures"_>(keys)
};
const json::string &server_name
{
at<"server_name"_>(keys)
};
const json::object &server_signatures
{
signatures.at(server_name)
};
const ed25519::sig sig
{
[&server_signatures, &key_id](auto&& sig)
{
b64::decode(sig, unquote(server_signatures.at(key_id)));
}
};
m::keys copy{keys};
at<"signatures"_>(copy) = string_view{};
thread_local char buf[16_KiB];
const const_buffer preimage
{
json::stringify(mutable_buffer{buf}, copy)
};
if(!pk.verify(preimage, sig))
throw m::error
{
http::UNAUTHORIZED, "M_INVALID_SIGNATURE",
"Failed to verify signature for public key of '%s'",
server_name
};
if(expired(keys))
log::warning
{
m::log, "key '%s' for '%s' expired on %s.",
key_id,
json::get<"server_name"_>(keys, "<no server name>"_sv),
timestr(at<"valid_until_ts"_>(keys) / 1000L),
};
}
bool
ircd::m::expired(const m::keys &keys)
{
const auto &valid_until_ts
{
at<"valid_until_ts"_>(keys)
};
return valid_until_ts < ircd::time<milliseconds>();
}
//
// query
//
namespace ircd::m
{
extern conf::item<milliseconds> keys_query_timeout;
}
decltype(ircd::m::keys_query_timeout)
ircd::m::keys_query_timeout
{
{ "name", "ircd.keys.query.timeout" },
{ "default", 20000L }
};
bool
ircd::m::keys::query(const string_view &query_server,
const queries &queries,
const closure_bool &closure)
try
{
assert(!query_server.empty());
m::fed::key::opts opts;
opts.remote = query_server;
opts.dynamic = false;
const unique_buffer<mutable_buffer> buf
{
32_KiB
};
m::fed::key::query request
{
queries, buf, std::move(opts)
};
const auto &code
{
request.get(milliseconds(keys_query_timeout))
};
const json::array response
{
request
};
bool ret(false);
for(const json::object key : response) try
{
verify(m::keys{key});
if(!closure(key))
continue;
cache::set(key);
ret |= true;
}
catch(const std::exception &e)
{
log::derror
{
"Failed to verify keys for '%s' from '%s' :%s",
key.get("server_name"),
query_server,
e.what()
};
}
return ret;
}
catch(const ctx::timeout &e)
{
throw m::error
{
http::REQUEST_TIMEOUT, "M_TIMEOUT",
"Failed to query keys from '%s' in time",
query_server
};
}
//
// get
//
namespace ircd::m
{
extern conf::item<milliseconds> keys_get_timeout;
}
decltype(ircd::m::keys_get_timeout)
ircd::m::keys_get_timeout
{
{ "name", "ircd.keys.get.timeout" },
{ "default", 20000L }
};
size_t
ircd::m::keys::fetch(const pdus &pdus)
{
using fed::key::server_key;
std::vector<server_key> q;
for(const auto &event : pdus)
for(const auto &[server_name, signatures] : json::get<"signatures"_>(event))
for(const auto &[key_id, signature] : json::object(signatures))
{
const server_key query
{
json::get<"origin"_>(event), key_id
};
// Check if we're already making a query.
if(std::binary_search(begin(q), end(q), query))
continue;
// Check if we already have the key.
if(cache::has(json::get<"origin"_>(event), key_id))
continue;
// If there's a cached error on the host we can skip here.
if(fed::errant(json::get<"origin"_>(event)))
continue;
q.emplace_back(query);
std::sort(begin(q), end(q));
}
const size_t fetched
{
fetch(queries(q))
};
return fetched;
}
size_t
ircd::m::keys::fetch(const queries &queries)
{
size_t ret(0);
get(queries, [&ret](const auto &) noexcept
{
++ret;
return true;
});
return ret;
}
bool
ircd::m::keys::get(const string_view &server_name,
const closure &closure)
{
return get(server_name, string_view{}, closure);
}
bool
ircd::m::keys::get(const string_view &server_name,
const string_view &key_id,
const closure &closure)
try
{
assert(!server_name.empty());
if(cache::get(server_name, key_id, closure))
return true;
if(server_name == my_host())
throw m::NOT_FOUND
{
"key %s for '%s' (that's myself) not found",
key_id?: "<all>"_sv,
server_name
};
log::debug
{
log, "Keys for %s not cached; querying network...",
server_name
};
const unique_buffer<mutable_buffer> buf
{
32_KiB
};
m::fed::key::opts opts;
opts.dynamic = false;
opts.remote = server_name;
const m::fed::key::server_key query
{
server_name, key_id
};
m::fed::key::query request
{
{query}, buf, std::move(opts)
};
const auto status
{
request.get(milliseconds(keys_get_timeout))
};
// note fed::key::query gives us "server_keys" array via cast operator.
const json::array response
{
request
};
for(const json::object keys : response)
{
if(unquote(keys["server_name"]) != server_name)
continue;
verify(m::keys(keys));
log::debug
{
log, "Verified keys for '%s' from '%s'",
server_name,
server_name,
};
cache::set(keys);
closure(keys);
return true;
}
return false;
}
catch(const ctx::timeout &e)
{
throw m::error
{
http::REQUEST_TIMEOUT, "M_TIMEOUT",
"Failed to fetch keys for '%s' in time",
server_name
};
}
bool
ircd::m::keys::get(const queries &queries,
const closure_bool &closure)
{
bool ret{true};
std::vector<m::feds::opts> opts;
opts.reserve(queries.size());
for(const auto &[server_name, key_id] : queries) try
{
assert(key_id);
assert(server_name);
const bool cached
{
cache::get(server_name, key_id, [&ret, &closure]
(const auto &object)
{
ret = closure(object);
})
};
if(!ret)
return ret;
if(cached)
continue;
if(my_host(server_name))
{
log::derror
{
m::log, "key '%s' for '%s' (that's myself) not found.",
key_id,
server_name,
};
continue;
}
log::debug
{
m::log, "Key '%s' for %s not cached; querying network...",
key_id,
server_name,
};
opts.emplace_back();
opts.back().op = feds::op::keys;
opts.back().exclude_myself = true;
opts.back().closure_errors = false;
opts.back().nothrow_closure = true;
opts.back().arg[0] = server_name;
opts.back().arg[1] = key_id;
}
catch(const ctx::interrupted &)
{
throw;
}
catch(const std::exception &e)
{
log::error
{
log, "Failed to start request for key '%s' of '%s' :%s",
key_id,
server_name,
e.what(),
};
}
assert(opts.size() <= queries.size());
m::feds::execute(opts, [&ret, &closure]
(const auto &result)
{
const json::array &server_keys
{
result.object["server_keys"]
};
for(const json::object keys : server_keys)
{
const json::string &server_name
{
keys["server_name"]
};
if(server_name != result.request->arg[0] || server_name != result.origin)
{
log::derror
{
m::log, "Origin mismatch for '%s' got '%s' from '%s'",
result.request->arg[0],
server_name,
result.origin,
};
continue;
}
if(!verify(m::keys(keys), std::nothrow))
{
log::derror
{
m::log, "Failed to verify key '%s' for '%s' from '%s'",
result.request->arg[0],
result.request->arg[1],
result.origin,
};
continue;
}
cache::set(keys);
if(!(ret = closure(keys)))
return ret;
}
return ret;
});
return ret;
}
//
// m::keys::cache
//
size_t
ircd::m::keys::cache::set(const json::object &keys)
{
const json::string &server_name
{
keys.at("server_name")
};
const m::node::room node_room
{
server_name
};
if(!exists(node_room.room_id))
create(node_room, me());
const auto send_to_cache{[&node_room, &keys]
(const json::object::member &member)
{
const json::string &key_id{member.first};
send(node_room, me(), "ircd.key", key_id, keys);
}};
size_t ret{0};
static const size_t max{32};
const json::object &old_vks{keys["old_verify_keys"]};
for(auto it(begin(old_vks)); it != end(old_vks) && ret < max; ++it, ++ret)
send_to_cache(*it);
const json::object &vks{keys["verify_keys"]};
for(auto it(begin(vks)); it != end(vks) && ret < max; ++it, ++ret)
send_to_cache(*it);
return ret;
}
bool
ircd::m::keys::cache::get(const string_view &server_name,
const string_view &key_id,
const keys::closure &closure)
{
const m::node::room node_room
{
server_name
};
// Without a key_id we search for the most recent key; note this is not
// the same as making a state_key="" query, as that would be an actual
// ircd.key entry without an id (which shouldn't exist).
const event::idx event_idx
{
key_id?
node_room.get(std::nothrow, "ircd.key", key_id):
node_room.get(std::nothrow, "ircd.key")
};
return event_idx?
m::get(std::nothrow, event_idx, "content", closure):
false;
}
bool
ircd::m::keys::cache::has(const string_view &server_name,
const string_view &key_id)
{
const m::node::room node_room
{
server_name
};
// Without a key_id we search for the most recent key; note this is not
// the same as making a state_key="" query, as that would be an actual
// ircd.key entry without an id (which shouldn't exist).
return
key_id?
node_room.has("ircd.key", key_id):
node_room.has("ircd.key");
}
bool
ircd::m::keys::cache::for_each(const string_view &server_name,
const keys::closure_bool &closure)
{
const m::node::room node_room
{
server_name
};
const m::room::state state
{
node_room
};
return state.for_each("ircd.key", [&closure]
(const auto &type, const auto &key_id, const auto event_idx)
{
bool ret{true};
m::get(std::nothrow, event_idx, "content", [&closure, &ret]
(const json::object &content)
{
ret = closure(content);
});
return ret;
});
}
///////////////////////////////////////////////////////////////////////////////
//
// (internal) ed25519 support sanity test
//
#ifdef RB_DEBUG
#define TEST_ED25519 __attribute__((constructor))
#else
#define TEST_ED25519
#endif
namespace ircd
{
static void _test_ed25519() noexcept TEST_ED25519;
}
void
ircd::_test_ed25519()
noexcept try
{
char seed_buf[ed25519::SEED_SZ + 10];
const auto seed
{
b64::decode(seed_buf, "YJDBA9Xnr2sVqXD9Vj7XVUnmFZcZrlw8Md7kMW+3XA1")
};
ed25519::pk pk;
ed25519::sk sk{&pk, seed};
const auto SERVER_NAME {"domain"};
const auto KEY_ID {"ed25519:1"};
const auto test{[&]
(const std::string &object) -> bool
{
const auto sig
{
sk.sign(const_buffer{object})
};
char sigb64_buf[128];
const auto sigb64
{
b64::encode_unpadded(sigb64_buf, sig)
};
ed25519::sig unsig; const auto unsigb64
{
b64::decode(unsig, sigb64)
};
return pk.verify(const_buffer{object}, unsig);
}};
const bool tests[]
{
test(std::string{json::object
{
"{}"
}}),
test(json::strung(json::members
{
{ "one", 1L },
{ "two", "Two" }
})),
};
if(!std::all_of(begin(tests), end(tests), [](const bool &b) { return b; }))
throw ircd::panic
{
"Seeded ed25519 test failed"
};
}
catch(...)
{
ircd::terminate
{
std::current_exception()
};
}