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construct/matrix/resource.cc

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C++

// Matrix Construct
//
// Copyright (C) Matrix Construct Developers, Authors & Contributors
// Copyright (C) 2016-2019 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::m
{
extern conf::item<bool> x_matrix_verify_origin;
extern conf::item<bool> x_matrix_verify_destination;
static pair<string_view> parse_version(const resource::request &);
static string_view authenticate_bridge(const resource::method &, const client &, resource::request &);
static user::id authenticate_user(const resource::method &, const client &, resource::request &);
static string_view authenticate_node(const resource::method &, const client &, resource::request &);
}
decltype(ircd::m::x_matrix_verify_origin)
ircd::m::x_matrix_verify_origin
{
{ "name", "ircd.m.x_matrix.verify_origin" },
{ "default", true },
};
decltype(ircd::m::x_matrix_verify_origin)
ircd::m::x_matrix_verify_destination
{
{ "name", "ircd.m.x_matrix.verify_destination" },
{ "default", true },
};
//
// m::resource::method
//
ircd::m::resource::method::method(m::resource &resource,
const string_view &name,
handler function,
struct opts opts)
:ircd::resource::method
{
resource,
name,
std::bind(&method::handle, this, ph::_1, ph::_2),
std::move(opts),
}
,function
{
std::move(function)
}
{
}
ircd::m::resource::method::~method()
noexcept
{
}
ircd::resource::response
ircd::m::resource::method::handle(client &client,
ircd::resource::request &request_)
try
{
m::resource::request request
{
*this, client, request_
};
// If we have an error cached from previously not being able to
// contact this origin we can clear that now that they're alive.
if(request.node_id && fed::errant(request.node_id))
{
m::burst::opts opts;
m::burst::burst
{
request.node_id, opts
};
}
return function(client, request);
}
catch(const json::print_error &e)
{
throw m::error
{
http::INTERNAL_SERVER_ERROR, "M_NOT_JSON",
"Generator Protection: %s",
e.what()
};
}
catch(const json::not_found &e)
{
throw m::error
{
http::BAD_REQUEST, "M_BAD_JSON",
"Required JSON field: %s",
e.what()
};
}
catch(const json::error &e)
{
throw m::error
{
http::BAD_REQUEST, "M_NOT_JSON",
"%s",
e.what()
};
}
catch(const ctx::timeout &e)
{
throw m::error
{
http::BAD_GATEWAY, "M_REQUEST_TIMEOUT",
"%s",
e.what()
};
}
//
// resource::request
//
ircd::m::resource::request::request(const method &method,
const client &client,
ircd::resource::request &r)
:ircd::resource::request
{
r
}
,authorization
{
split(head.authorization, ' ')
}
,access_token
{
iequals(authorization.first, "Bearer"_sv)?
authorization.second:
query["access_token"]
}
,x_matrix
{
!access_token && iequals(authorization.first, "X-Matrix"_sv)?
m::request::x_matrix{authorization.first, authorization.second}:
m::request::x_matrix{}
}
,version
{
parse_version(*this)
}
,node_id
{
// Server X-Matrix header verified here. Similar to client auth, origin
// which has been authed is referenced in the client.request. If the method
// requires, and auth fails or not provided, this function throws.
// Otherwise it returns a string_view of the origin name in
// request.node_id, or an empty string_view if an origin was not
// apropos for this request (i.e a client request rather than federation).
authenticate_node(method, client, *this)
}
,user_id
{
// Client access token verified here. On success, user_id owning the token
// is copied into the request structure. On failure, the method is
// checked to see if it requires authentication and if so, this throws.
authenticate_user(method, client, *this)
}
,bridge_id
{
// Application service access token verified here. Note that on success
// this function will set the user_id as well as the bridge_id.
authenticate_bridge(method, client, *this)
}
{
}
/// Authenticate a client based on access_token either in the query string or
/// in the Authentication bearer header. If a token is found the user_id owning
/// the token is copied into the request. If it is not found or it is invalid
/// then the method being requested is checked to see if it is required. If so
/// the appropriate exception is thrown. Note that if the access_token belongs
/// to a bridge (application service), the bridge_id is set accordingly.
ircd::m::user::id
ircd::m::authenticate_user(const resource::method &method,
const client &client,
resource::request &request)
{
assert(method.opts);
const auto requires_auth
{
method.opts->flags & resource::method::REQUIRES_AUTH
};
if(!requires_auth && !request.access_token)
return {};
// Note that we still try to auth a token and obtain a user_id here even
// if the endpoint does not require auth; an auth'ed user may enjoy
// additional functionality if credentials provided.
if(requires_auth && !request.access_token)
throw m::error
{
http::UNAUTHORIZED, "M_MISSING_TOKEN",
"Credentials for this method are required but missing."
};
// Belay authentication to authenticate_bridge().
if(startswith(request.access_token, "bridge_"))
return {};
const m::room::id::buf tokens_room_id
{
"tokens", origin(my())
};
const m::room::state tokens
{
tokens_room_id
};
const event::idx event_idx
{
tokens.get(std::nothrow, "ircd.access_token", request.access_token)
};
// The sender of the token is the user being authenticated.
const string_view sender
{
m::get(std::nothrow, event_idx, "sender", request.id_buf)
};
// Note that if the endpoint does not require auth and we were not
// successful in authenticating the provided token: we do not throw here;
// instead we continue as if no token was provided, and no user_id will
// be known to the requested endpoint.
if(requires_auth && !sender)
throw m::error
{
http::UNAUTHORIZED, "M_UNKNOWN_TOKEN",
"Credentials for this method are required but invalid."
};
return sender;
}
/// Authenticate an application service (bridge)
ircd::string_view
ircd::m::authenticate_bridge(const resource::method &method,
const client &client,
resource::request &request)
{
// Real user was already authenticated; not a bridge.
if(request.user_id)
return {};
// No attempt at authenticating as a bridge; not a bridge.
if(!startswith(request.access_token, "bridge_"))
return {};
const m::room::id::buf tokens_room_id
{
"tokens", origin(my())
};
const m::room::state tokens
{
tokens_room_id
};
const event::idx event_idx
{
tokens.get(std::nothrow, "ircd.access_token", request.access_token)
};
// The sender of the token is the bridge's user_id, where the bridge_id
// is the localpart, but none of this is a puppetting/target user_id.
const string_view sender
{
m::get(std::nothrow, event_idx, "sender", request.id_buf)
};
// Note that unlike authenticate_user, if an as_token was proffered but is
// not valid, there is no possible fallback to unauthenticated mode and
// this must throw here.
if(!sender)
throw m::error
{
http::UNAUTHORIZED, "M_UNKNOWN_TOKEN",
"Credentials for this method are required but invalid."
};
// Find the user_id the bridge wants to masquerade as.
const string_view puppet_user_id
{
request.query["user_id"]
};
// Set the user credentials for the request at the discretion of the
// bridge. If the bridge did not supply a user_id then we set the value
// to the bridge's own agency. Note that we urldecode into the id_buf
// after the bridge_user_id; care not to overwrite it.
{
mutable_buffer buf(request.id_buf);
request.user_id = puppet_user_id?
url::decode(buf + size(sender), puppet_user_id):
sender;
}
// Return only the localname (that's the localpart not including sigil).
return m::user::id(sender).localname();
}
ircd::string_view
ircd::m::authenticate_node(const resource::method &method,
const client &client,
resource::request &request)
try
{
assert(method.opts);
const auto required
{
method.opts->flags & resource::method::VERIFY_ORIGIN
};
const bool supplied
{
!empty(request.x_matrix.origin)
};
if(!required && !supplied)
return {};
if(required && !supplied)
throw m::error
{
http::UNAUTHORIZED, "M_MISSING_AUTHORIZATION",
"Required X-Matrix Authorization was not supplied"
};
if(x_matrix_verify_destination && !m::self::host(request.head.host))
throw m::error
{
http::UNAUTHORIZED, "M_NOT_MY_HOST",
"The X-Matrix Authorization destination '%s' is not recognized here.",
request.head.host
};
const m::request object
{
request.x_matrix.origin,
rstrip(request.head.host, ":8448"),
method.name,
request.head.uri,
request.content
};
if(x_matrix_verify_origin && !object.verify(request.x_matrix.key, request.x_matrix.sig))
throw m::error
{
http::FORBIDDEN, "M_INVALID_SIGNATURE",
"The X-Matrix Authorization is invalid."
};
return request.x_matrix.origin;
}
catch(const m::error &)
{
throw;
}
catch(const std::exception &e)
{
thread_local char rembuf[128];
log::derror
{
resource::log, "X-Matrix Authorization from %s: %s",
string(rembuf, remote(client)),
e.what()
};
throw m::error
{
http::UNAUTHORIZED, "M_UNKNOWN_ERROR",
"An error has prevented authorization: %s",
e.what()
};
}
ircd::pair<ircd::string_view>
ircd::m::parse_version(const m::resource::request &request)
{
const auto &user_agent
{
request.head.user_agent
};
const auto &[primary, info]
{
split(user_agent, ' ')
};
const auto &[name, version]
{
split(primary, '/')
};
return
{
name, version
};
}