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construct/ircd/m/io.cc

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C++

/*
* Copyright (C) 2016 Charybdis Development Team
* Copyright (C) 2016 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.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT,
* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
* IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#include <ircd/m/m.h>
namespace ircd::m::io
{
bool acquire_local(event::fetch &);
bool acquire_local(room::fetch &);
bool acquire_local(room::state::fetch &);
}
///////////////////////////////////////////////////////////////////////////////
//
// m/io.h
//
struct ircd::m::io::fetch::opts
const ircd::m::io::fetch::defaults
{};
struct ircd::m::io::sync::opts
const ircd::m::io::sync::defaults
{};
ircd::json::object
ircd::m::io::get(const id::event &event_id,
const mutable_buffer &buf)
{
event::fetch tab
{
event_id, buf
};
return acquire(tab);
}
void
ircd::m::io::release(event::sync &tab)
{
release({&tab, 1});
if(unlikely(bool(tab.error)))
std::rethrow_exception(tab.error);
}
ircd::json::array
ircd::m::io::acquire(room::state::fetch &tab)
{
acquire({&tab, 1});
if(unlikely(bool(tab.error)))
std::rethrow_exception(tab.error);
return tab.pdus;
}
ircd::json::array
ircd::m::io::acquire(room::fetch &tab)
{
acquire({&tab, 1});
if(unlikely(bool(tab.error)))
std::rethrow_exception(tab.error);
return tab.pdus;
}
ircd::json::object
ircd::m::io::acquire(event::fetch &tab)
{
acquire({&tab, 1});
if(unlikely(bool(tab.error)))
std::rethrow_exception(tab.error);
return tab.pdu;
}
//
// mass release suite
//
//TODO: XXX
namespace ircd::m::io
{
net::remote
destination_remote(const string_view &destination)
{
return net::remote{destination};
}
}
size_t
ircd::m::io::release(vector_view<event::sync> tab)
{
const auto count
{
tab.size()
};
size_t out(0);
std::string url[count];
m::io::request request[count];
struct session session[count];
for(size_t i(0); i < count; ++i) try
{
if(!tab[i].destination || !tab[i].buf)
continue;
url[i] = fmt::snstringf
{
1024, "_matrix/federation/v1/send/%zu/", tab[i].txnid
};
session[i] =
{
tab[i].opts->hint? tab[i].opts->hint : destination_remote(tab[i].destination)
};
request[i] =
{
"PUT", url[i], {}, json::object{tab[i].buf}
};
request[i].destination = tab[i].destination;
request[i](session[i].server);
++out;
}
catch(const std::exception &e)
{
tab[i].error = std::make_exception_ptr(e);
log.warning("sync txn %ld will not succeed: %s",
tab[i].txnid,
e.what());
}
static const size_t rbuf_size{4_KiB};
const unique_buffer<mutable_buffer> rbuf
{
out * rbuf_size
};
size_t in(0), ret(0);
json::object response[count];
for(size_t i(0); i < count; ++i) try
{
if(!tab[i].destination)
continue;
if(bool(tab[i].error))
continue;
const mutable_buffer buf
{
data(rbuf) + (in * rbuf_size), rbuf_size
};
ircd::parse::buffer pb{buf};
response[i] = m::io::response{session[i].server, pb};
ret += !tab[i].error;
++in;
log.debug("%s received txn %ld (size: %zu) error: %d",
string(net::remote{session[i].server}),
tab[i].txnid,
size(tab[i].buf),
bool(tab[i].error));
}
catch(const http::error &e)
{
tab[i].error = std::make_exception_ptr(e);
log.error("request to sync txn %ld failed: %s: %s",
tab[i].txnid,
e.what(),
e.content);
}
catch(const std::exception &e)
{
tab[i].error = std::make_exception_ptr(e);
log.error("request to sync txn %ld failed: %s",
tab[i].txnid,
e.what());
}
return ret;
}
//
// mass acquire suite
//
size_t
ircd::m::io::acquire(vector_view<room::state::fetch> tab)
{
const auto count
{
tab.size()
};
std::string url[count];
std::string query[count];
m::io::request request[count];
struct session session[count];
for(size_t i(0); i < count; ++i) try
{
if(!tab[i].event_id)
continue;
tab[i].local_result = acquire_local(tab[i]);
if(tab[i].local_result)
continue;
static char tmp[768];
url[i] = fmt::snstringf
{
1024, "_matrix/federation/v1/state/%s/", url::encode(tab[i].room_id, tmp)
};
query[i] = fmt::snstringf
{
1024, "event_id=%s", url::encode(tab[i].event_id, tmp)
};
request[i] =
{
"GET", url[i], query[i], json::object{}
};
session[i] =
{
tab[i].opts->hint? tab[i].opts->hint : tab[i].event_id.hostname()
};
request[i].destination = session[i].destination;
request[i](session[i].server);
}
catch(const std::exception &e)
{
tab[i].error = std::make_exception_ptr(e);
log.warning("request for event_id %s in room_id %s will not succeed: %s",
string_view{tab[i].event_id},
string_view{tab[i].room_id},
e.what());
}
size_t ret(0);
json::object response[count];
for(size_t i(0); i < count; ++i) try
{
if(!tab[i].event_id)
continue;
if(tab[i].local_result || bool(tab[i].error))
continue;
ircd::parse::buffer pb{tab[i].buf};
response[i] = m::io::response(session[i].server, pb);
tab[i].auth_chain = response[i]["auth_chain"];
tab[i].pdus = response[i]["pdus"];
//TODO: check event id
//TODO: check hashes
//TODO: check signatures
ret += !tab[i].error;
log.debug("%s sent us event %s in room %s pdus: %zu (size: %zu) error: %d",
string(net::remote{session[i].server}),
string_view{tab[i].event_id},
string_view{tab[i].room_id},
json::array{response[i]["pdus"]}.count(),
string_view{response[i]}.size(),
bool(tab[i].error));
}
catch(const std::exception &e)
{
tab[i].error = std::make_exception_ptr(e);
log.warning("request for event_id %s failed: %s",
string_view{tab[i].event_id},
e.what());
}
return ret;
}
size_t
ircd::m::io::acquire(vector_view<room::fetch> tab)
{
const auto count
{
tab.size()
};
std::string url[count];
std::string query[count];
m::io::request request[count];
struct session session[count];
for(size_t i(0); i < count; ++i) try
{
if(!tab[i].event_id)
continue;
tab[i].local_result = acquire_local(tab[i]);
if(tab[i].local_result)
continue;
static char tmp[768];
url[i] = fmt::snstringf
{
1024, "_matrix/federation/v1/backfill/%s/", url::encode(tab[i].room_id, tmp)
};
query[i] = fmt::snstringf
{
1024, "limit=%zu&v=%s", tab[i].opts->limit, url::encode(tab[i].event_id, tmp)
};
session[i] =
{
tab[i].opts->hint? tab[i].opts->hint : tab[i].event_id.hostname()
};
request[i] =
{
"GET", url[i], query[i], {}
};
request[i].destination = session[i].destination;
request[i](session[i].server);
}
catch(const std::exception &e)
{
tab[i].error = std::make_exception_ptr(e);
log.warning("request for event_id %s in room_id %s will not succeed: %s",
string_view{tab[i].event_id},
string_view{tab[i].room_id},
e.what());
}
size_t ret(0);
json::object response[count];
for(size_t i(0); i < count; ++i) try
{
if(!tab[i].event_id)
continue;
if(tab[i].local_result || bool(tab[i].error))
continue;
ircd::parse::buffer pb{tab[i].buf};
response[i] = m::io::response(session[i].server, pb);
tab[i].auth_chain = response[i]["auth_chain"];
tab[i].pdus = response[i]["pdus"];
//TODO: check event id
//TODO: check hashes
//TODO: check signatures
ret += !tab[i].error;
log.debug("%s sent us event %s in room %s pdus: %zu (size: %zu) error: %d",
string(net::remote{session[i].server}),
string_view{tab[i].event_id},
string_view{tab[i].room_id},
json::array{response[i]["pdus"]}.count(),
string_view{response[i]}.size(),
bool(tab[i].error));
}
catch(const std::exception &e)
{
tab[i].error = std::make_exception_ptr(e);
log.warning("request for event_id %s failed: %s",
string_view{tab[i].event_id},
e.what());
}
return ret;
}
size_t
ircd::m::io::acquire(vector_view<event::fetch> tab)
{
const auto count
{
tab.size()
};
std::string url[count];
m::io::request request[count];
struct session session[count];
for(size_t i(0); i < count; ++i) try
{
if(!tab[i].event_id)
continue;
tab[i].local_result = acquire_local(tab[i]);
if(tab[i].local_result)
continue;
static char tmp[768];
url[i] = fmt::snstringf
{
1024, "_matrix/federation/v1/event/%s/", url::encode(tab[i].event_id, tmp)
};
session[i] =
{
tab[i].opts->hint? tab[i].opts->hint : tab[i].event_id.hostname()
};
request[i] =
{
"GET", url[i], {}, {}
};
request[i].destination = session[i].destination;
request[i](session[i].server);
}
catch(const std::exception &e)
{
tab[i].error = std::make_exception_ptr(e);
log.warning("request for event_id %s will not succeed: %s",
string_view{tab[i].event_id},
e.what());
}
size_t ret(0);
json::object response[count];
for(size_t i(0); i < count; ++i) try
{
if(!tab[i].event_id)
continue;
if(tab[i].local_result || bool(tab[i].error))
continue;
ircd::parse::buffer pb{tab[i].buf};
response[i] = m::io::response{session[i].server, pb};
tab[i].pdu = json::array{response[i]["pdus"]}[0];
//TODO: check event id
//TODO: check hashes
//TODO: check signatures
ret += !tab[i].error;
log.debug("%s sent us event %s pdus: %zu (size: %zu) error: %d",
string(net::remote{session[i].server}),
string_view{tab[i].event_id},
json::array{response[i]["pdus"]}.count(),
string_view{response[i]}.size(),
bool(tab[i].error));
}
catch(const std::exception &e)
{
tab[i].error = std::make_exception_ptr(e);
log.warning("request for event_id %s failed: %s",
string_view{tab[i].event_id},
e.what());
}
return ret;
}
//
// acquire_local suite.
//
bool
ircd::m::io::acquire_local(room::state::fetch &tab)
try
{
return false;
}
catch(const std::exception &e)
{
tab.error = std::make_exception_ptr(e);
return false;
}
bool
ircd::m::io::acquire_local(room::fetch &tab)
try
{
return false;
}
catch(const std::exception &e)
{
tab.error = std::make_exception_ptr(e);
return false;
}
bool
ircd::m::io::acquire_local(event::fetch &tab)
try
{
/*
const m::vm::query<m::vm::where::equal> query
{
{ "event_id", tab.event_id },
};
const auto test{[&tab](const auto &event)
{
tab.pdu = stringify(mutable_buffer{tab.buf}, event);
return true;
}};
return m::vm::test(query, test);
*/
return false;
}
catch(const std::exception &e)
{
tab.error = std::make_exception_ptr(e);
return false;
}
///////////////////////////////////////////////////////////////////////////////
//
// m/session.h
//
ircd::m::io::session::session(const net::remote &remote)
:server{remote}
,destination{remote.hostname}
{
}
ircd::json::object
ircd::m::io::session::operator()(parse::buffer &pb,
request &request)
{
request.destination = destination;
request(server);
return response
{
server, pb
};
}
//
// response
//
ircd::m::io::response::response(server &server,
parse::buffer &pb)
{
http::code status;
json::object &object
{
static_cast<json::object &>(*this)
};
parse::capstan pc
{
pb, read_closure(server)
};
http::response
{
pc,
nullptr,
[&pc, &status, &object](const http::response::head &head)
{
status = http::status(head.status);
object = http::response::content{pc, head};
},
[](const auto &header)
{
//std::cout << header.first << " :" << header.second << std::endl;
}
};
if(status < 200 || status >= 300)
throw m::error(status, object);
}
//
// request
//
namespace ircd::m::name
{
// constexpr const char *const content {"content"};
constexpr const char *const destination {"destination"};
constexpr const char *const method {"method"};
// constexpr const char *const origin {"origin"};
constexpr const char *const uri {"uri"};
}
struct ircd::m::io::request::authorization
:json::tuple
<
json::property<name::content, string_view>,
json::property<name::destination, string_view>,
json::property<name::method, string_view>,
json::property<name::origin, string_view>,
json::property<name::uri, string_view>
>
{
string_view generate(const mutable_buffer &out);
using super_type::tuple;
};
void
ircd::m::io::request::operator()(const vector_view<const http::header> &addl_headers)
const
{
}
void
ircd::m::io::request::operator()(server &server,
const vector_view<const http::header> &addl_headers)
const
{
const size_t addl_headers_size
{
std::min(addl_headers.size(), size_t(64UL))
};
size_t headers{2 + addl_headers_size};
http::line::header header[headers + 1]
{
{ "User-Agent", BRANDING_NAME " (IRCd " BRANDING_VERSION ")" },
{ "Content-Type", "application/json" },
};
for(size_t i(0); i < addl_headers_size; ++i)
header[headers++] = addl_headers.at(i);
char x_matrix[1024];
if(startswith(path, "_matrix/federation"))
header[headers++] =
{
"Authorization", generate_authorization(x_matrix)
};
http::request
{
destination,
method,
path,
query,
content,
write_closure(server),
{ header, headers }
};
}
ircd::string_view
ircd::m::io::request::generate_authorization(const mutable_buffer &out)
const
{
const fmt::bsprintf<2048> uri
{
"/%s%s%s", lstrip(path, '/'), query? "?" : "", query
};
request::authorization authorization
{
json::members
{
{ "destination", destination },
{ "method", method },
{ "origin", my_host() },
{ "uri", uri },
}
};
if(string_view{content}.size() > 2)
json::get<"content"_>(authorization) = content;
return authorization.generate(out);
}
ircd::string_view
ircd::m::io::request::authorization::generate(const mutable_buffer &out)
{
// Any buffers here can be comfortably large if they're not on a stack and
// nothing in this procedure has a yield which risks decohering static
// buffers; the assertion is tripped if so.
ctx::critical_assertion ca;
static fixed_buffer<mutable_buffer, 131072> request_object_buf;
const auto request_object
{
json::stringify(request_object_buf, *this)
};
const ed25519::sig sig
{
self::secret_key.sign(request_object)
};
static fixed_buffer<mutable_buffer, 128> signature_buf;
const auto x_matrix_len
{
fmt::sprintf(out, "X-Matrix origin=%s,key=\"%s\",sig=\"%s\"",
unquote(string_view{at<"origin"_>(*this)}),
self::public_key_id,
b64encode_unpadded(signature_buf, sig))
};
return
{
data(out), size_t(x_matrix_len)
};
}
bool
ircd::m::io::verify_x_matrix_authorization(const string_view &x_matrix,
const string_view &method,
const string_view &uri,
const string_view &content)
{
string_view tokens[3], origin, key, sig;
if(ircd::tokens(split(x_matrix, ' ').second, ',', tokens) != 3)
return false;
for(const auto &token : tokens)
{
const auto &key_value
{
split(token, '=')
};
switch(hash(key_value.first))
{
case hash("origin"): origin = unquote(key_value.second); break;
case hash("key"): key = unquote(key_value.second); break;
case hash("sig"): sig = unquote(key_value.second); break;
}
}
request::authorization authorization
{
json::members
{
{ "destination", my_host() },
{ "method", method },
{ "origin", origin },
{ "uri", uri },
}
};
if(content.size() > 2)
json::get<"content"_>(authorization) = content;
//TODO: XXX
const json::strung request_object
{
authorization
};
const ed25519::sig _sig
{
[&sig](auto &buf)
{
b64decode(buf, sig);
}
};
const ed25519::pk pk
{
[&origin, &key](auto &buf)
{
m::keys::get(origin, key, [&buf]
(const string_view &key)
{
b64decode(buf, unquote(key));
});
}
};
return pk.verify(const_raw_buffer{request_object}, _sig);
}