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construct/ircd/m/keys.cc

524 lines
9.7 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/m/m.h>
const ircd::m::room::id::buf
keys_room_id
{
"keys", ircd::my_host()
};
/// The keys room is where the public key data for each server is stored as
/// state indexed by the server name.
ircd::m::room
ircd::m::keys::room
{
keys_room_id
};
ircd::ed25519::sk
ircd::m::self::secret_key
{};
ircd::ed25519::pk
ircd::m::self::public_key
{};
std::string
ircd::m::self::public_key_b64
{};
std::string
ircd::m::self::public_key_id
{};
std::string
ircd::m::self::tls_cert_der
{};
std::string
ircd::m::self::tls_cert_der_sha256_b64
{};
//
// init
//
ircd::m::keys::init::init(const json::object &conf)
:conf{conf}
{
certificate();
signing();
}
ircd::m::keys::init::~init()
noexcept
{
}
void
ircd::m::keys::init::certificate()
{
const std::string cert_file
{
unquote(conf.at("tls_certificate_path"))
};
if(!fs::exists(cert_file))
throw fs::error("Failed to find SSL certificate @ `%s'", cert_file);
const auto cert_pem
{
fs::read(cert_file)
};
const unique_buffer<mutable_buffer> der_buf
{
8_KiB
};
const auto cert_der
{
openssl::cert2d(der_buf, cert_pem)
};
const fixed_buffer<const_buffer, crh::sha256::digest_size> hash
{
sha256{cert_der}
};
self::tls_cert_der_sha256_b64 =
{
b64encode_unpadded(hash)
};
static char print_buf[8_KiB];
log.info("Certificate `%s' (PEM: %zu bytes; DER: %zu bytes) sha256b64: %s :%s",
cert_file,
cert_pem.size(),
ircd::size(cert_der),
self::tls_cert_der_sha256_b64,
openssl::print_subject(print_buf, cert_pem));
}
void
ircd::m::keys::init::signing()
{
const std::string sk_file
{
unquote(conf.get("signing_key_path", "construct.sk"))
};
if(fs::exists(sk_file))
log.info("Using ed25519 secret key @ `%s'", sk_file);
else
log.notice("Creating new ed25519 secret key @ `%s'", sk_file);
self::secret_key = ed25519::sk
{
sk_file, &self::public_key
};
self::public_key_b64 = b64encode_unpadded(self::public_key);
const fixed_buffer<const_buffer, sha256::digest_size> hash
{
sha256{self::public_key}
};
const auto public_key_hash_b58
{
b58encode(hash)
};
static const auto trunc_size{8};
self::public_key_id = fmt::snstringf
{
BUFSIZE, "ed25519:%s", trunc(public_key_hash_b58, trunc_size)
};
log.info("Current key is '%s' and the public key is: %s",
self::public_key_id,
self::public_key_b64);
}
void
ircd::m::keys::init::bootstrap()
{
create(keys::room, me.user_id);
send(keys::room, me.user_id, "m.room.name", "",
{
{ "name", "Key Room" }
});
const json::strung verify_keys
{
json::members
{{
string_view{self::public_key_id},
{
{ "key", self::public_key_b64 }
}
}}
};
keys my_key;
json::get<"verify_keys"_>(my_key) = verify_keys;
json::get<"server_name"_>(my_key) = my_host();
json::get<"old_verify_keys"_>(my_key) = "{}";
json::get<"valid_until_ts"_>(my_key) = ircd::time<milliseconds>() + duration_cast<milliseconds>(hours(2160)).count();
const json::members tlsfps
{
{ "sha256", self::tls_cert_der_sha256_b64 }
};
const json::value tlsfp[1]
{
{ tlsfps }
};
const json::strung tls_fingerprints{json::value
{
tlsfp, 1
}};
json::get<"tls_fingerprints"_>(my_key) = tls_fingerprints;
const auto presig
{
json::strung(my_key)
};
const ed25519::sig sig
{
self::secret_key.sign(const_buffer{presig})
};
static char signature[256];
const json::strung signatures{json::members
{
{ my_host(), json::members
{
{ string_view{self::public_key_id}, b64encode_unpadded(signature, sig) }
}}
}};
json::get<"signatures"_>(my_key) = signatures;
keys::set(my_key);
}
//
// keys
//
void
ircd::m::keys::get(const string_view &server_name,
const string_view &key_id,
const key_closure &closure)
try
{
get(server_name, [&key_id, &closure](const keys &keys)
{
const json::object vks
{
at<"verify_keys"_>(keys)
};
const json::object vkk
{
vks.at(key_id)
};
// The key is not unquote() because some types of keys may be
// more complex than just a string one day; think: RLWE.
const string_view &key
{
vkk.at("key")
};
closure(key);
});
}
catch(const json::not_found &e)
{
throw m::NOT_FOUND
{
"Failed to find key '%s' for '%s': %s",
key_id,
server_name,
e.what()
};
}
void
ircd::m::keys::get(const string_view &server_name,
const keys_closure &closure)
{
assert(!server_name.empty());
if(get_local(server_name, closure))
return;
if(server_name == my_host())
throw m::NOT_FOUND
{
"keys for '%s' (that's myself) not found", server_name
};
log.debug("Keys for %s not cached; querying network...",
server_name);
char url[1024]; const auto url_len
{
fmt::snprintf(url, sizeof(url), "_matrix/key/v2/server/")
};
//TODO: XXX
const unique_buffer<mutable_buffer> buffer
{
8192
};
ircd::parse::buffer pb{mutable_buffer{buffer}};
m::request request{"GET", url, {}, {}};
m::session session{server_name};
const json::object response
{
session(pb, request)
};
const m::keys &keys
{
response
};
if(!verify(keys))
throw m::error
{
http::UNAUTHORIZED, "M_INVALID_SIGNATURE",
"Failed to verify keys for '%s'", server_name
};
log.debug("Verified keys from '%s'",
server_name);
set(keys);
closure(keys);
}
void
ircd::m::keys::get(const string_view &server_name,
const string_view &key_id,
const string_view &query_server,
const keys_closure &closure)
try
{
assert(!server_name.empty());
assert(!query_server.empty());
char key_id_buf[1024];
char server_name_buf[1024];
char url[1024]; const auto url_len
{
fmt::snprintf(url, sizeof(url), "_matrix/key/v2/query/%s/%s/",
url::encode(server_name, server_name_buf),
url::encode(key_id, key_id_buf))
};
//TODO: XXX
const unique_buffer<mutable_buffer> buffer
{
8192
};
// Make request and receive response synchronously.
// This ircd::ctx will block here fetching.
ircd::parse::buffer pb{mutable_buffer{buffer}};
m::request request{"GET", url, {}, {}};
m::session session{server_name};
const json::object response
{
session(pb, request)
};
const json::array &keys
{
response.at("server_keys")
};
log::debug("Fetched %zu candidate keys seeking '%s' for '%s' from '%s' (%s)",
keys.count(),
empty(key_id)? "*" : key_id,
server_name,
query_server,
string(net::remote(session.server)));
bool ret{false};
for(auto it(begin(keys)); it != end(keys); ++it)
{
const m::keys &keys{*it};
const auto &_server_name
{
at<"server_name"_>(keys)
};
if(!verify(keys))
throw m::error
{
http::UNAUTHORIZED, "M_INVALID_SIGNATURE",
"Failed to verify keys for '%s' from '%s'",
_server_name,
query_server
};
log.debug("Verified keys for '%s' from '%s'",
_server_name,
query_server);
set(keys);
const json::object vks{json::get<"verify_keys"_>(keys)};
if(_server_name == server_name)
{
closure(keys);
ret = true;
}
}
if(!ret)
throw m::NOT_FOUND
{
"Failed to get any keys for '%s' from '%s' (got %zu total keys otherwise)",
server_name,
query_server,
keys.count()
};
}
catch(const json::not_found &e)
{
throw m::NOT_FOUND
{
"Failed to find key '%s' for '%s' when querying '%s': %s",
key_id,
server_name,
query_server,
e.what()
};
}
bool
ircd::m::keys::get_local(const string_view &server_name,
const keys_closure &closure)
{
static const string_view type{"ircd.key"};
return m::keys::room.get(std::nothrow, type, server_name, [&closure]
(const m::event &event)
{
closure(json::get<"content"_>(event));
});
}
void
ircd::m::keys::set(const keys &keys)
{
const auto &server_name
{
unquote(at<"server_name"_>(keys))
};
const auto &state_key
{
server_name
};
const m::user::id::buf sender
{
"ircd", server_name
};
const json::strung derp
{
keys
};
static const string_view type{"ircd.key"};
send(keys::room, sender, type, state_key, json::object{derp});
}
/// Verify this key data (with itself).
bool
ircd::m::keys::verify(const keys &keys)
noexcept try
{
const auto &valid_until_ts
{
at<"valid_until_ts"_>(keys)
};
if(valid_until_ts < ircd::time<milliseconds>())
throw ircd::error("Key was valid until %s", timestr(valid_until_ts));
const json::object &verify_keys
{
at<"verify_keys"_>(keys)
};
const string_view &key_id
{
begin(verify_keys)->first
};
const json::object &key
{
begin(verify_keys)->second
};
const ed25519::pk pk
{
[&key](auto &pk)
{
b64decode(pk, unquote(key.at("key")));
}
};
const json::object &signatures
{
at<"signatures"_>(keys)
};
const string_view &server_name
{
unquote(at<"server_name"_>(keys))
};
const json::object &server_signatures
{
signatures.at(server_name)
};
const ed25519::sig sig{[&server_signatures, &key_id](auto &sig)
{
b64decode(sig, unquote(server_signatures.at(key_id)));
}};
///TODO: XXX
m::keys copy{keys};
at<"signatures"_>(copy) = string_view{};
const json::strung preimage{copy};
return pk.verify(const_buffer{preimage}, sig);
}
catch(const std::exception &e)
{
log.error("key verification for '%s' failed: %s",
json::get<"server_name"_>(keys, "<no server name>"_sv),
e.what());
return false;
}