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construct/ircd/resource.cc

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// 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.
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#include <ircd/m/m.h>
decltype(ircd::resource::resources)
ircd::resource::resources
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{};
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ircd::resource &
ircd::resource::find(string_view path)
{
path = rstrip(path, '/');
auto it(resources.lower_bound(path));
if(it == end(resources)) try
{
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--it;
if(it == begin(resources) || !startswith(path, rstrip(it->first, '/')))
return *resources.at("/");
}
catch(const std::out_of_range &e)
{
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throw http::error
{
http::code::NOT_FOUND
};
}
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// Exact file or directory match
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if(path == rstrip(it->first, '/'))
return *it->second;
// Directories handle all paths under them.
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if(!startswith(path, rstrip(it->first, '/')))
{
// Walk the iterator back to find if there is a directory prefixing this path.
if(it == begin(resources))
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throw http::error
{
http::code::NOT_FOUND
};
--it;
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if(!startswith(path, rstrip(it->first, '/')))
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throw http::error
{
http::code::NOT_FOUND
};
}
// Check if the resource is a directory; if not, it can only
// handle exact path matches.
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if(~it->second->flags & it->second->DIRECTORY && path != rstrip(it->first, '/'))
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throw http::error
{
http::code::NOT_FOUND
};
return *it->second;
}
//
// resource
//
ircd::resource::resource(const string_view &path)
:resource
{
path, opts{}
}
{
}
ircd::resource::resource(const string_view &path,
const opts &opts)
:path{path}
,description{opts.description}
,flags{opts.flags}
,resources_it{[this, &path]
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{
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const auto iit
{
resources.emplace(this->path, this)
};
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if(!iit.second)
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throw error
{
"resource \"%s\" already registered", path
};
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return unique_const_iterator<decltype(resources)>
{
resources, iit.first
};
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}()}
{
log::debug
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{
"Registered resource \"%s\"", path.empty()? string_view{"/"} : path
};
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}
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ircd::resource::~resource()
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noexcept
{
log::debug
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{
"Unregistered resource \"%s\"", path.empty()? string_view{"/"} : path
};
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}
namespace ircd
{
static void verify_origin(client &client, resource::method &method, resource::request &request);
static void authenticate(client &client, resource::method &method, resource::request &request);
}
void
ircd::authenticate(client &client,
resource::method &method,
resource::request &request)
try
{
request.access_token =
{
request.query["access_token"]
};
if(empty(request.access_token))
{
const auto authorization
{
split(request.head.authorization, ' ')
};
if(iequals(authorization.first, "bearer"_sv))
request.access_token = authorization.second;
}
const bool result
{
request.access_token &&
m::user::tokens.get(std::nothrow, "ircd.access_token"_sv, request.access_token, [&request]
(const m::event &event)
{
// The user sent this access token to the tokens room
request.user_id = m::user::id{at<"sender"_>(event)};
})
};
if(!result)
throw m::error
{
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// When credentials are required but missing or invalid, the HTTP call will return with
// a status of 401 and the error code, M_MISSING_TOKEN or M_UNKNOWN_TOKEN respectively.
http::UNAUTHORIZED, "M_UNKNOWN_TOKEN", "Credentials for this method are required but invalid."
};
}
catch(const std::out_of_range &e)
{
throw m::error
{
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// When credentials are required but missing or invalid, the HTTP call will return with
// a status of 401 and the error code, M_MISSING_TOKEN or M_UNKNOWN_TOKEN respectively.
http::UNAUTHORIZED, "M_MISSING_TOKEN", "Credentials for this method are required but missing."
};
}
void
ircd::verify_origin(client &client,
resource::method &method,
resource::request &request)
try
{
const m::request::x_matrix x_matrix
{
request.head.authorization
};
const m::request object
{
x_matrix.origin, my_host(), method.name, request.head.uri, request.content
};
const auto verified
{
object.verify(x_matrix.key, x_matrix.sig)
};
if(verified)
return;
throw m::error
{
http::UNAUTHORIZED, "M_INVALID_SIGNATURE",
"The X-Matrix Authorization is invalid."
};
}
catch(const m::error &)
{
throw;
}
catch(const std::exception &e)
{
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log::error
{
"X-Matrix Authorization from %s: %s",
string(remote(client)),
e.what()
};
throw m::error
{
http::UNAUTHORIZED, "M_UNKNOWN_ERROR",
"An error has prevented authorization: %s",
e.what()
};
}
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void
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ircd::resource::operator()(client &client,
const http::request::head &head,
const string_view &content_partial)
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{
// Find the method or METHOD_NOT_ALLOWED
auto &method
{
operator[](head.method)
};
// Bail out if the method limited the amount of content and it was exceeded.
if(head.content_length > method.opts.payload_max)
throw http::error
{
http::PAYLOAD_TOO_LARGE
};
// Content that hasn't yet arrived is remaining
const size_t content_remain
{
head.content_length - client.content_consumed
};
// View of the content that will be passed to the resource handler. Starts
// with the content received so far which is actually in the head's buffer.
// One of three things can happen now:
//
// - There is no more content so we pass this as-is right to the resource.
// - There is more content, so we allocate a content buffer, copy what we
// have to it, read the rest off the socket, and then reassign this view.
// - There is more content, but the resource wants to read it off the
// socket on its own terms, so we pass this as-is.
string_view content
{
content_partial
};
if(content_remain && ~method.opts.flags & method.CONTENT_DISCRETION)
{
// Copy any partial content to the final contiguous allocated buffer;
client.content_buffer = unique_buffer<mutable_buffer>{head.content_length};
memcpy(data(client.content_buffer), data(content_partial), size(content_partial));
// Setup a window inside the buffer for the remaining socket read.
const mutable_buffer content_remain_buffer
{
data(client.content_buffer) + size(content_partial), content_remain
};
// Read the remaining content off the socket.
client.content_consumed += read_all(*client.sock, content_remain_buffer);
assert(client.content_consumed == head.content_length);
content = string_view
{
data(client.content_buffer), head.content_length
};
}
client.request = resource::request
{
head, content
};
const auto pathparm
{
lstrip(head.path, this->path)
};
client.request.parv =
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{
client.request.param, tokens(pathparm, '/', client.request.param)
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};
if(method.opts.flags & method.REQUIRES_AUTH)
authenticate(client, method, client.request);
if(method.opts.flags & method.VERIFY_ORIGIN)
verify_origin(client, method, client.request);
handle_request(client, method, client.request);
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}
void
ircd::resource::handle_request(client &client,
method &method,
resource::request &request)
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try
{
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const auto response
{
method(client, request)
};
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}
catch(const json::not_found &e)
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{
throw m::error
{
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http::BAD_REQUEST, "M_BAD_JSON", "Required JSON field: %s", e.what()
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};
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}
catch(const json::print_error &e)
{
throw m::error
{
http::INTERNAL_SERVER_ERROR, "M_NOT_JSON", "Generator Protection: %s", e.what()
};
}
catch(const json::error &e)
{
throw m::error
{
http::BAD_REQUEST, "M_NOT_JSON", "%s", e.what()
};
}
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catch(const std::out_of_range &e)
{
throw m::error
{
http::NOT_FOUND, "M_NOT_FOUND", "%s", e.what()
};
}
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ircd::resource::method &
ircd::resource::operator[](const string_view &name)
try
{
return *methods.at(name);
}
catch(const std::out_of_range &e)
{
size_t len(0);
char buf[128]; buf[0] = '\0';
auto it(begin(methods));
if(it != end(methods))
{
len = strlcat(buf, it->first);
for(++it; it != end(methods); ++it)
{
len = strlcat(buf, " ");
len = strlcat(buf, it->first);
}
}
throw http::error
{
http::METHOD_NOT_ALLOWED, {},
{
{ "Allow", string_view{buf, len} }
}
};
}
ircd::resource::method::method(struct resource &resource,
const string_view &name,
const handler &handler)
:method
{
resource, name, handler, {}
}
{
}
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ircd::resource::method::method(struct resource &resource,
const string_view &name,
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const handler &handler,
const struct opts &opts)
:name{name}
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,resource{&resource}
,function{handler}
,opts{opts}
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,methods_it{[this, &name]
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{
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const auto iit
{
this->resource->methods.emplace(this->name, this)
};
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if(!iit.second)
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throw error
{
"resource \"%s\" already registered", name
};
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return unique_const_iterator<decltype(resource::methods)>
{
this->resource->methods,
iit.first
};
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}()}
{
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}
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ircd::resource::method::~method()
noexcept
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{
}
ircd::resource::response
ircd::resource::method::operator()(client &client,
request &request)
try
{
return function(client, request);
}
catch(const std::bad_function_call &e)
{
throw http::error
{
http::SERVICE_UNAVAILABLE
};
}
ircd::resource::response::response(client &client,
const http::code &code)
:response{client, json::object{"{}"}, code}
{
}
ircd::resource::response::response(client &client,
const http::code &code,
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const json::iov &members)
:response{client, members, code}
{
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}
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ircd::resource::response::response(client &client,
const json::members &members,
const http::code &code)
:response{client, code, members}
{
}
ircd::resource::response::response(client &client,
const json::value &value,
const http::code &code)
:response{client, code, value}
{
}
ircd::resource::response::response(client &client,
const http::code &code,
const json::value &value)
try
{
const auto size
{
serialized(value)
};
const unique_buffer<mutable_buffer> buffer
{
size
};
switch(type(value))
{
case json::ARRAY:
{
response(client, json::array{stringify(mutable_buffer{buffer}, value)}, code);
return;
}
case json::OBJECT:
{
response(client, json::object{stringify(mutable_buffer{buffer}, value)}, code);
return;
}
default: throw m::error
{
http::INTERNAL_SERVER_ERROR, "M_NOT_JSON", "Cannot send json::%s as response content", type(value)
};
}
}
catch(const json::error &e)
{
throw m::error
{
http::INTERNAL_SERVER_ERROR, "M_NOT_JSON", "Generator Protection: %s", e.what()
};
}
ircd::resource::response::response(client &client,
const http::code &code,
const json::members &members)
try
{
const auto size
{
serialized(members)
};
const unique_buffer<mutable_buffer> buffer
{
size
};
const json::object object
{
stringify(mutable_buffer{buffer}, members)
};
response(client, object, code);
}
catch(const json::error &e)
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{
throw m::error
{
http::INTERNAL_SERVER_ERROR, "M_NOT_JSON", "Generator Protection: %s", e.what()
};
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}
ircd::resource::response::response(client &client,
const json::iov &members,
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const http::code &code)
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try
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{
const auto size
{
serialized(members)
};
const unique_buffer<mutable_buffer> buffer
{
size
};
const json::object object
{
stringify(mutable_buffer{buffer}, members)
};
response(client, object, code);
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}
catch(const json::error &e)
{
throw m::error
{
http::INTERNAL_SERVER_ERROR, "M_NOT_JSON", "Generator Protection: %s", e.what()
};
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}
ircd::resource::response::response(client &client,
const json::object &object,
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const http::code &code)
{
static const string_view content_type
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{
"application/json; charset=utf-8"
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};
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assert(json::valid(object, std::nothrow));
response(client, object, content_type, code);
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}
ircd::resource::response::response(client &client,
const json::array &array,
const http::code &code)
{
static const string_view content_type
{
"application/json; charset=utf-8"
};
assert(json::valid(array, std::nothrow));
response(client, array, content_type, code);
}
ircd::resource::response::response(client &client,
const string_view &content,
const string_view &content_type,
const http::code &code,
const vector_view<const http::header> &headers)
{
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// contents of this buffer get copied again when further passed to
// response{}; we can get this off the stack if that remains true.
thread_local char buffer[2_KiB];
window_buffer sb{buffer};
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{
const critical_assertion ca;
http::write(sb, headers);
}
response
{
client, content, content_type, code, sb.completed()
};
}
ircd::resource::response::response(client &client,
const string_view &content,
const string_view &content_type,
const http::code &code,
const string_view &headers)
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{
const auto request_time
{
client.timer.at<microseconds>().count()
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};
const fmt::bsprintf<64> rtime
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{
"%zd$us", request_time
};
const string_view cache_control
{
(code >= 200 && code < 300) ||
(code >= 403 && code <= 405) ||
(code >= 300 && code < 400)? "no-cache":
""
};
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// This buffer will be passed to the socket and sent out;
// cannot be static/tls.
char head_buf[2_KiB];
window_buffer head{head_buf};
http::response
{
head,
code,
content.size(),
content_type,
headers,
{
{ "Access-Control-Allow-Origin", "*" }, //TODO: XXX
{ "Cache-Control", cache_control },
{ "X-IRCd-Request-Timer", rtime, },
},
};
// Maximum size is 2_KiB which is realistically ok but ideally a small
// maximum; this exception should hit the developer in testing.
if(unlikely(!head.remaining()))
throw assertive
{
"HTTP headers too large for buffer of %zu", sizeof(head_buf)
};
const ilist<const const_buffer> vector
{
head.completed(),
content
};
write_closure(client)(vector);
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log::debug
{
"socket(%p) local[%s] remote[%s] HTTP %d %s in %ld$us; response in %ld$us (%s) content-length:%zu",
client.sock.get(),
string(local(client)),
string(remote(client)),
int(code),
http::status(code),
request_time,
(client.timer.at<microseconds>().count() - request_time),
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content_type,
content.size()
};
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}