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construct/ircd/server.cc
2018-01-13 21:17:10 -08:00

895 lines
18 KiB
C++

// Copyright (C) Matrix Construct Developers, Authors & Contributors
// Copyright (C) 2016-2018 Jason Volk
//
// 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/server/server.h>
#include <ircd/asio.h>
namespace ircd::server
{
std::shared_ptr<node> create(const net::hostport &);
}
decltype(ircd::server::log)
ircd::server::log
{
"server", 'S'
};
decltype(ircd::server::nodes)
ircd::server::nodes
{};
ircd::server::node &
ircd::server::get(const net::hostport &hostport)
{
auto it(nodes.lower_bound(host(hostport)));
if(it == nodes.end() || it->first != host(hostport))
{
auto node{create(hostport)};
const string_view key{node->remote.hostname};
it = nodes.emplace_hint(it, key, std::move(node));
}
return *it->second;
}
std::shared_ptr<ircd::server::node>
ircd::server::create(const net::hostport &hostport)
{
auto node(std::make_shared<node>());
node->remote.hostname = std::string{host(hostport)};
node->resolve(hostport);
return node;
}
ircd::server::node &
ircd::server::find(const net::hostport &hostport)
{
return *nodes.at(host(hostport));
}
bool
ircd::server::exists(const net::hostport &hostport)
{
return nodes.find(host(hostport)) != end(nodes);
}
//
// init
//
ircd::server::init::init()
{
}
ircd::server::init::~init()
noexcept
{
nodes.clear();
}
void
ircd::server::init::interrupt()
{
nodes.clear();
}
///
// request
//
ircd::server::request::request(const net::hostport &hostport,
server::out out,
server::in in)
:tag{nullptr}
,out{std::move(out)}
,in{std::move(in)}
{
auto &node(server::get(hostport));
node.submit(*this);
}
ircd::server::request::request(request &&o)
noexcept
:ctx::future<http::code>{std::move(o)}
,tag{std::move(o.tag)}
,out{std::move(o.out)}
,in{std::move(o.in)}
{
}
ircd::server::request &
ircd::server::request::operator=(request &&o)
noexcept
{
ctx::future<http::code>::operator=(std::move(o));
tag = std::move(o.tag);
out = std::move(o.out);
in = std::move(o.in);
assert(tag->request == &o);
tag->request = this;
return *this;
}
ircd::server::request::~request()
noexcept
{
}
//
// request::tag
//
ircd::server::request::tag::tag(server::request &request)
:request{&request}
{
static_cast<ctx::future<http::code> &>(request) = p;
}
ircd::server::request::tag::tag(tag &&o)
noexcept
:request{std::move(o.request)}
{
assert(o.request->tag == &o);
o.request = nullptr;
request->tag = this;
}
struct ircd::server::request::tag &
ircd::server::request::tag::operator=(tag &&o)
noexcept
{
request = std::move(o.request);
assert(o.request->tag == &o);
o.request = nullptr;
request->tag = this;
return *this;
}
ircd::server::request::tag::~tag()
noexcept
{
}
/// Called by the controller of the socket with a view of the data received by
/// the socket. The location and size of `buffer` is the same or smaller than
/// the buffer previously supplied by make_read_buffer().
///
/// Sometimes make_read_buffer() supplies a buffer that is too large, and some
/// data read off the socket does not belong to this tag. In that case, This
/// function returns a const_buffer viewing the portion of `buffer` which is
/// considered the "overrun," and the socket controller will copy that over to
/// the next tag.
///
/// The tag indicates it is entirely finished with receiving its data by
/// setting the value of `done` to true. Otherwise it is assumed false.
///
ircd::const_buffer
ircd::server::request::tag::read_buffer(const const_buffer &buffer,
bool &done)
{
return !request? const_buffer{}:
!request->in.head.status? read_head(buffer, done):
read_content(buffer, done);
}
/// An idempotent operation that provides the location of where the socket
/// should place the next received data. The tag figures this out based on
/// whether it receiving HTTP head data or whether it is in content mode.
///
/// In head mode, portions of the user's buffer are returned starting with
/// the entire buffer. After a call read_buffer() supplying more data from
/// the socket, the subsequent invocation of make_read_buffer() will return
/// smaller windows for the remaining free space. Head mode is completed when
/// an \r\n\r\n terminator is received.
///
/// In content mode, portions of the user's buffer are returned starting with
/// one that is at most content_length. After a call to read_buffer()
/// supplying more data, the remaining space of the remaining content_length
/// are returned.
///
ircd::mutable_buffer
ircd::server::request::tag::make_read_buffer()
const
{
assert(request);
return !request? mutable_buffer{}:
!request->in.head.status? make_head_buffer():
make_content_buffer();
}
ircd::const_buffer
ircd::server::request::tag::read_head(const const_buffer &buffer,
bool &done)
{
assert(request);
auto &req{*request};
auto &head{req.in.head};
const auto &head_buffer{req.in.head_buffer};
const auto &content_buffer{req.in.content_buffer};
// informal search for head terminator
static const string_view terminator{"\r\n\r\n"};
const auto pos
{
string_view{data(buffer), size(buffer)}.find(terminator)
};
// No terminator found; account for what was received in this buffer
// for the next call to make_head_buffer() preparing for the subsequent
// invocation of this function with more data.
if(pos == string_view::npos)
{
head_read += size(buffer);
return {};
}
// The given buffer may go past the end of the head and we may already
// have part of the head from a previous invocation. This indicates
// how much dome was just received from this buffer only, including the
// terminator which is considered part of the head.
const size_t addl_head_bytes
{
pos + size(terminator)
};
assert(addl_head_bytes <= size(buffer));
head_read += addl_head_bytes;
// Setup the capstan and mark the end of the tape
parse::buffer pb{mutable_buffer{data(head_buffer), head_read}};
parse::capstan pc{pb};
pc.read += head_read;
head = http::response::head{pc};
assert(pb.completed() == head_read);
const size_t overrun_length
{
size(buffer) - addl_head_bytes
};
const size_t &content_read
{
std::min(head.content_length, overrun_length)
};
const const_buffer partial_content
{
data(head_buffer) + head_read, content_read
};
// Any partial content was written to the head buffer by accident,
// that has to be copied over to the content buffer.
this->content_read += copy(content_buffer, partial_content);
assert(this->content_read == size(partial_content));
// Anything remaining is not our response and must be given back
assert(overrun_length >= content_read);
const const_buffer overrun
{
data(head_buffer) + head_read + content_read, overrun_length - content_read
};
if(this->content_read == head.content_length)
{
done = true;
p.set_value(http::status(head.status));
}
return overrun;
}
ircd::const_buffer
ircd::server::request::tag::read_content(const const_buffer &buffer,
bool &done)
{
assert(request);
auto &req{*request};
const auto &head{req.in.head};
const auto &content_buffer{req.in.content_buffer};
// The amount of remaining content for the response sequence
assert(head.content_length >= content_read);
const size_t remaining
{
head.content_length - content_read
};
// The amount of content read in this buffer only.
const size_t addl_content_read
{
std::min(size(buffer), remaining)
};
const size_t overrun_length
{
size(buffer) - addl_content_read
};
content_read += addl_content_read;
// Report anything that doesn't belong to us.
const const_buffer overrun
{
data(content_buffer) + content_read, overrun_length
};
assert(content_read <= head.content_length);
if(content_read == head.content_length)
{
done = true;
p.set_value(http::status(head.status));
}
return overrun;
}
ircd::mutable_buffer
ircd::server::request::tag::make_head_buffer()
const
{
assert(request);
const auto &req{*request};
const auto &head_buffer{req.in.head_buffer};
const auto &content_buffer{req.in.content_buffer};
if(head_read >= size(head_buffer))
return {};
const size_t remaining
{
size(head_buffer) - head_read
};
assert(remaining <= size(head_buffer));
const mutable_buffer buffer
{
data(head_buffer) + head_read, remaining
};
return buffer;
}
ircd::mutable_buffer
ircd::server::request::tag::make_content_buffer()
const
{
assert(request);
const auto &req{*request};
const auto &head{req.in.head};
const auto &content_buffer{req.in.content_buffer};
// The amount of bytes we still have to read to for the response
assert(head.content_length >= content_read);
const size_t remaining
{
head.content_length - content_read
};
// The amount of bytes available in the user's buffer.
assert(size(content_buffer) >= content_read);
const size_t available
{
size(content_buffer) - content_read
};
// For now, this has to trip right here.
assert(available >= remaining);
const mutable_buffer buffer
{
data(content_buffer) + content_read, std::min(available, remaining)
};
return buffer;
}
//
// node
//
ircd::server::node::node()
{
}
ircd::server::node::~node()
noexcept
{
}
void
ircd::server::node::submit(request &request)
{
link &ret(link_get());
ret.submit(request);
}
void
ircd::server::node::cancel(request &request)
{
}
ircd::server::link &
ircd::server::node::link_get()
{
while(!remote.resolved())
dock.wait();
if(links.empty())
{
auto &ret(link_add(1));
while(!ret.ready())
dock.wait();
return ret;
}
else return links.back();
}
ircd::server::link &
ircd::server::node::link_add(const size_t &num)
{
links.emplace_back(*this);
auto &link{links.back()};
link.open(remote);
return link;
}
void
ircd::server::node::handle_open(link &link,
std::exception_ptr eptr)
try
{
if(eptr)
std::rethrow_exception(eptr);
dock.notify_all();
}
catch(const std::exception &e)
{
log::error("node(%p) link(%p) [%s]: open: %s",
this,
&link,
string(remote),
e.what());
}
void
ircd::server::node::handle_close(link &link,
std::exception_ptr eptr)
try
{
const unwind remove{[this, &link]
{
this->del(link);
}};
if(eptr)
std::rethrow_exception(eptr);
}
catch(const std::exception &e)
{
log::error("node(%p) link(%p) [%s]: close: %s",
this,
&link,
string(remote),
e.what());
}
void
ircd::server::node::handle_error(link &link,
const boost::system::system_error &e)
{
log::error("node(%p) link(%p) [%s]: error: %s",
this,
&link,
string(remote),
e.what());
if(!link.busy())
{
link.close(net::close_opts_default);
return;
}
}
void
ircd::server::node::del(link &link)
{
log::debug("node(%p) [%s]: removing link %p",
this,
string(remote),
&link);
const auto it(std::find_if(begin(links), end(links), [&link]
(const auto &link_)
{
return &link_ == &link;
}));
assert(it != end(links));
links.erase(it);
}
void
ircd::server::node::resolve(const hostport &hostport)
{
auto handler
{
std::bind(&node::handle_resolve, this, weak_from(*this), ph::_1, ph::_2)
};
net::resolve(hostport, std::move(handler));
}
void
ircd::server::node::handle_resolve(std::weak_ptr<node> wp,
std::exception_ptr eptr,
const ipport &ipport)
try
{
const life_guard<node> lg(wp);
this->eptr = std::move(eptr);
static_cast<net::ipport &>(this->remote) = ipport;
dock.notify_all();
}
catch(const std::bad_weak_ptr &)
{
return;
}
size_t
ircd::server::node::num_links_ready()
const
{
return std::accumulate(begin(links), end(links), size_t(0), []
(auto ret, const auto &link)
{
return ret += link.ready();
});
}
size_t
ircd::server::node::num_links_busy()
const
{
return std::accumulate(begin(links), end(links), size_t(0), []
(auto ret, const auto &link)
{
return ret += link.busy();
});
}
size_t
ircd::server::node::num_links()
const
{
return links.size();
}
size_t
ircd::server::node::num_tags()
const
{
return std::accumulate(begin(links), end(links), size_t(0), []
(auto ret, const auto &link)
{
return ret += link.queue.size();
});
}
//
// link
//
ircd::server::link::link(server::node &node)
:node{shared_from(node)}
{
}
ircd::server::link::~link()
noexcept
{
assert(!busy());
assert(!connected());
}
void
ircd::server::link::submit(request &request)
{
const auto it
{
queue.emplace(end(queue), request)
};
write(*socket, request.out.head);
write(*socket, request.out.content);
}
void
ircd::server::link::cancel(request &request)
{
}
bool
ircd::server::link::open(const net::open_opts &open_opts)
{
if(init)
return false;
auto handler
{
std::bind(&link::handle_open, this, ph::_1)
};
init = true;
fini = false;
socket = net::open(open_opts, std::move(handler));
return true;
}
void
ircd::server::link::handle_open(std::exception_ptr eptr)
{
init = false;
if(!this->eptr)
wait_readable();
if(node)
node->handle_open(*this, std::move(eptr));
}
bool
ircd::server::link::close(const net::close_opts &close_opts)
{
if(!socket)
return false;
if(fini)
return false;
auto handler
{
std::bind(&link::handle_close, this, ph::_1)
};
init = false;
fini = true;
net::close(*socket, close_opts, std::move(handler));
return true;
}
void
ircd::server::link::handle_close(std::exception_ptr eptr)
{
fini = false;
if(node)
node->handle_close(*this, std::move(eptr));
}
void
ircd::server::link::wait_writable()
{
auto handler
{
std::bind(&link::handle_writable, this, ph::_1)
};
assert(ready());
net::wait(*socket, net::ready::WRITE, std::move(handler));
}
void
ircd::server::link::handle_writable(const error_code &ec)
{
std::cout << this << " writable: " << string(ec) << std::endl;
}
void
ircd::server::link::wait_readable()
{
auto handler
{
std::bind(&link::handle_readable, this, ph::_1)
};
assert(ready());
net::wait(*socket, net::ready::READ, std::move(handler));
}
void
ircd::server::link::handle_readable(const error_code &ec)
try
{
using namespace boost::system::errc;
using boost::system::system_category;
switch(ec.value())
{
case success:
handle_readable_success();
wait_readable();
break;
case operation_canceled:
break;
default:
throw boost::system::system_error{ec};
}
}
catch(const boost::system::system_error &e)
{
if(node)
node->handle_error(*this, e);
}
catch(const std::exception &e)
{
log::critical("link::handle_readable(): %s", e.what());
assert(0);
throw;
}
/// Process as many read operations from as many tags as possible
void
ircd::server::link::handle_readable_success()
{
if(queue.empty())
return discard_read();
// Data pointed to by overrun will remain intact between iterations
// because this loop isn't executing in any ircd::ctx.
const_buffer overrun; do
{
if(!process_read(overrun))
break;
}
while(!queue.empty());
}
void
ircd::server::link::discard_read()
{
const size_t discard
{
available(*socket)
};
const size_t discarded
{
discard_any(*socket, discard)
};
// Shouldn't ever be hit because the read() within discard() throws
// the pending error like an eof.
log::warning("Link discarded %zu of %zu unexpected bytes",
discard,
discarded);
assert(0);
// for non-assert builds just in case; so this doesn't get loopy with
// discarding zero with an empty queue...
if(unlikely(!discard || !discarded))
throw assertive("Queue is empty and nothing to discard.");
}
/// Process as many read operations for one tag as possible
bool
ircd::server::link::process_read(const_buffer &overrun)
try
{
auto &tag
{
queue.front()
};
bool done{false}; do
{
overrun = process_read_next(overrun, tag, done);
}
while(!done);
queue.pop_front();
return true;
}
catch(const boost::system::system_error &e)
{
using namespace boost::system::errc;
switch(e.code().value())
{
case resource_unavailable_try_again:
return false;
case success:
assert(0);
default:
throw;
}
}
/// Process one read operation for one tag
ircd::const_buffer
ircd::server::link::process_read_next(const const_buffer &underrun,
struct request::tag &tag,
bool &done)
{
const mutable_buffer buffer
{
tag.make_read_buffer()
};
const size_t copied
{
copy(buffer, underrun)
};
const mutable_buffer remaining
{
data(buffer) + copied, size(buffer) - copied
};
const size_t received
{
read_one(*socket, remaining)
};
const const_buffer view
{
data(buffer), copied + received
};
const const_buffer overrun
{
tag.read_buffer(view, done)
};
assert(done || empty(overrun));
return overrun;
}
bool
ircd::server::link::busy()
const
{
return !queue.empty();
}
bool
ircd::server::link::ready()
const
{
return connected() && !init && !fini && !eptr;
}
bool
ircd::server::link::connected()
const noexcept
{
return bool(socket) && net::connected(*socket);
}