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rippled/include/beast/http/impl/read.ipp
Vinnie Falco bbad20c66f Qualify some calls: 
This fixes a problem where a call to read() is ambiguous because
the argument list contains objects from both boost::asio and
beast::http.

Users invoking read may need to do so fully qualified, by writing:
    beast::http::read(...);
2016-07-06 13:35:57 -04:00

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//
// Copyright (c) 2013-2016 Vinnie Falco (vinnie dot falco at gmail dot com)
//
// Distributed under the Boost Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
#ifndef BEAST_HTTP_IMPL_READ_IPP_HPP
#define BEAST_HTTP_IMPL_READ_IPP_HPP
#include <beast/http/concepts.hpp>
#include <beast/http/parser_v1.hpp>
#include <beast/core/bind_handler.hpp>
#include <beast/core/handler_alloc.hpp>
#include <beast/core/stream_concepts.hpp>
#include <cassert>
namespace beast {
namespace http {
namespace detail {
template<class Stream,
class DynamicBuffer, class Parser, class Handler>
class parse_op
{
using alloc_type =
handler_alloc<char, Handler>;
struct data
{
Stream& s;
DynamicBuffer& db;
Parser& p;
Handler h;
bool started = false;
bool cont;
int state = 0;
template<class DeducedHandler>
data(DeducedHandler&& h_, Stream& s_,
DynamicBuffer& sb_, Parser& p_)
: s(s_)
, db(sb_)
, p(p_)
, h(std::forward<DeducedHandler>(h_))
, cont(boost_asio_handler_cont_helpers::
is_continuation(h))
{
}
};
std::shared_ptr<data> d_;
public:
parse_op(parse_op&&) = default;
parse_op(parse_op const&) = default;
template<class DeducedHandler, class... Args>
parse_op(DeducedHandler&& h, Stream& s, Args&&... args)
: d_(std::allocate_shared<data>(alloc_type{h},
std::forward<DeducedHandler>(h), s,
std::forward<Args>(args)...))
{
(*this)(error_code{}, 0, false);
}
void
operator()(error_code ec,
std::size_t bytes_transferred, bool again = true);
friend
void* asio_handler_allocate(
std::size_t size, parse_op* op)
{
return boost_asio_handler_alloc_helpers::
allocate(size, op->d_->h);
}
friend
void asio_handler_deallocate(
void* p, std::size_t size, parse_op* op)
{
return boost_asio_handler_alloc_helpers::
deallocate(p, size, op->d_->h);
}
friend
bool asio_handler_is_continuation(parse_op* op)
{
return op->d_->cont;
}
template <class Function>
friend
void asio_handler_invoke(Function&& f, parse_op* op)
{
return boost_asio_handler_invoke_helpers::
invoke(f, op->d_->h);
}
};
template<class Stream,
class DynamicBuffer, class Parser, class Handler>
void
parse_op<Stream, DynamicBuffer, Parser, Handler>::
operator()(error_code ec, std::size_t bytes_transferred, bool again)
{
auto& d = *d_;
d.cont = d.cont || again;
while(d.state != 99)
{
switch(d.state)
{
case 0:
{
auto const used =
d.p.write(d.db.data(), ec);
if(ec)
{
// call handler
d.state = 99;
d.s.get_io_service().post(
bind_handler(std::move(*this), ec, 0));
return;
}
if(used > 0)
d.started = true;
d.db.consume(used);
if(d.p.complete())
{
// call handler
d.state = 99;
d.s.get_io_service().post(
bind_handler(std::move(*this), ec, 0));
return;
}
d.state = 1;
break;
}
case 1:
// read
d.state = 2;
d.s.async_read_some(d.db.prepare(
read_size_helper(d.db, 65536)),
std::move(*this));
return;
// got data
case 2:
{
if(ec == boost::asio::error::eof)
{
if(! d.started)
{
// call handler
d.state = 99;
break;
}
// Caller will see eof on next read.
ec = {};
d.p.write_eof(ec);
assert(ec || d.p.complete());
// call handler
d.state = 99;
break;
}
if(ec)
{
// call handler
d.state = 99;
break;
}
d.db.commit(bytes_transferred);
auto const used = d.p.write(d.db.data(), ec);
if(ec)
{
// call handler
d.state = 99;
break;
}
if(used > 0)
d.started = true;
d.db.consume(used);
if(d.p.complete())
{
// call handler
d.state = 99;
break;
}
d.state = 1;
break;
}
}
}
d.h(ec);
}
//------------------------------------------------------------------------------
template<class Stream, class DynamicBuffer,
bool isRequest, class Body, class Headers,
class Handler>
class read_op
{
using alloc_type =
handler_alloc<char, Handler>;
using parser_type =
parser_v1<isRequest, Body, Headers>;
using message_type =
message_v1<isRequest, Body, Headers>;
struct data
{
Stream& s;
DynamicBuffer& db;
message_type& m;
parser_type p;
Handler h;
bool started = false;
bool cont;
int state = 0;
template<class DeducedHandler>
data(DeducedHandler&& h_, Stream& s_,
DynamicBuffer& sb_, message_type& m_)
: s(s_)
, db(sb_)
, m(m_)
, h(std::forward<DeducedHandler>(h_))
, cont(boost_asio_handler_cont_helpers::
is_continuation(h))
{
}
};
std::shared_ptr<data> d_;
public:
read_op(read_op&&) = default;
read_op(read_op const&) = default;
template<class DeducedHandler, class... Args>
read_op(DeducedHandler&& h, Stream& s, Args&&... args)
: d_(std::allocate_shared<data>(alloc_type{h},
std::forward<DeducedHandler>(h), s,
std::forward<Args>(args)...))
{
(*this)(error_code{}, false);
}
void
operator()(error_code ec, bool again = true);
friend
void* asio_handler_allocate(
std::size_t size, read_op* op)
{
return boost_asio_handler_alloc_helpers::
allocate(size, op->d_->h);
}
friend
void asio_handler_deallocate(
void* p, std::size_t size, read_op* op)
{
return boost_asio_handler_alloc_helpers::
deallocate(p, size, op->d_->h);
}
friend
bool asio_handler_is_continuation(read_op* op)
{
return op->d_->cont;
}
template <class Function>
friend
void asio_handler_invoke(Function&& f, read_op* op)
{
return boost_asio_handler_invoke_helpers::
invoke(f, op->d_->h);
}
};
template<class Stream, class DynamicBuffer,
bool isRequest, class Body, class Headers,
class Handler>
void
read_op<Stream, DynamicBuffer, isRequest, Body, Headers, Handler>::
operator()(error_code ec, bool again)
{
auto& d = *d_;
d.cont = d.cont || again;
while(! ec && d.state != 99)
{
switch(d.state)
{
case 0:
d.state = 1;
async_parse(d.s, d.db, d.p, std::move(*this));
return;
case 1:
// call handler
d.state = 99;
d.m = d.p.release();
break;
}
}
d.h(ec);
}
} // detail
//------------------------------------------------------------------------------
template<class SyncReadStream, class DynamicBuffer, class Parser>
void
parse(SyncReadStream& stream,
DynamicBuffer& dynabuf, Parser& parser)
{
static_assert(is_SyncReadStream<SyncReadStream>::value,
"SyncReadStream requirements not met");
static_assert(is_DynamicBuffer<DynamicBuffer>::value,
"DynamicBuffer requirements not met");
static_assert(is_Parser<Parser>::value,
"Parser requirements not met");
error_code ec;
parse(stream, dynabuf, parser, ec);
if(ec)
throw boost::system::system_error{ec};
}
template<class SyncReadStream, class DynamicBuffer, class Parser>
void
parse(SyncReadStream& stream, DynamicBuffer& dynabuf,
Parser& parser, error_code& ec)
{
static_assert(is_SyncReadStream<SyncReadStream>::value,
"SyncReadStream requirements not met");
static_assert(is_DynamicBuffer<DynamicBuffer>::value,
"DynamicBuffer requirements not met");
static_assert(is_Parser<Parser>::value,
"Parser requirements not met");
bool started = false;
for(;;)
{
auto used =
parser.write(dynabuf.data(), ec);
if(ec)
return;
dynabuf.consume(used);
if(used > 0)
started = true;
if(parser.complete())
break;
dynabuf.commit(stream.read_some(
dynabuf.prepare(read_size_helper(
dynabuf, 65536)), ec));
if(ec && ec != boost::asio::error::eof)
return;
if(ec == boost::asio::error::eof)
{
if(! started)
return;
// Caller will see eof on next read.
ec = {};
parser.write_eof(ec);
if(ec)
return;
assert(parser.complete());
break;
}
}
}
template<class AsyncReadStream,
class DynamicBuffer, class Parser, class ReadHandler>
typename async_completion<
ReadHandler, void(error_code)>::result_type
async_parse(AsyncReadStream& stream,
DynamicBuffer& dynabuf, Parser& parser, ReadHandler&& handler)
{
static_assert(is_AsyncReadStream<AsyncReadStream>::value,
"AsyncReadStream requirements not met");
static_assert(is_DynamicBuffer<DynamicBuffer>::value,
"DynamicBuffer requirements not met");
static_assert(is_Parser<Parser>::value,
"Parser requirements not met");
beast::async_completion<ReadHandler,
void(error_code)> completion(handler);
detail::parse_op<AsyncReadStream, DynamicBuffer,
Parser, decltype(completion.handler)>{
completion.handler, stream, dynabuf, parser};
return completion.result.get();
}
template<class SyncReadStream, class DynamicBuffer,
bool isRequest, class Body, class Headers>
void
read(SyncReadStream& stream, DynamicBuffer& dynabuf,
message_v1<isRequest, Body, Headers>& msg)
{
static_assert(is_SyncReadStream<SyncReadStream>::value,
"SyncReadStream requirements not met");
static_assert(is_DynamicBuffer<DynamicBuffer>::value,
"DynamicBuffer requirements not met");
static_assert(is_ReadableBody<Body>::value,
"ReadableBody requirements not met");
error_code ec;
beast::http::read(stream, dynabuf, msg, ec);
if(ec)
throw system_error{ec};
}
template<class SyncReadStream, class DynamicBuffer,
bool isRequest, class Body, class Headers>
void
read(SyncReadStream& stream, DynamicBuffer& dynabuf,
message_v1<isRequest, Body, Headers>& m,
error_code& ec)
{
static_assert(is_SyncReadStream<SyncReadStream>::value,
"SyncReadStream requirements not met");
static_assert(is_DynamicBuffer<DynamicBuffer>::value,
"DynamicBuffer requirements not met");
static_assert(is_ReadableBody<Body>::value,
"ReadableBody requirements not met");
parser_v1<isRequest, Body, Headers> p;
beast::http::parse(stream, dynabuf, p, ec);
if(ec)
return;
assert(p.complete());
m = p.release();
}
template<class AsyncReadStream, class DynamicBuffer,
bool isRequest, class Body, class Headers,
class ReadHandler>
typename async_completion<
ReadHandler, void(error_code)>::result_type
async_read(AsyncReadStream& stream, DynamicBuffer& dynabuf,
message_v1<isRequest, Body, Headers>& m,
ReadHandler&& handler)
{
static_assert(is_AsyncReadStream<AsyncReadStream>::value,
"AsyncReadStream requirements not met");
static_assert(is_DynamicBuffer<DynamicBuffer>::value,
"DynamicBuffer requirements not met");
static_assert(is_ReadableBody<Body>::value,
"ReadableBody requirements not met");
beast::async_completion<ReadHandler,
void(error_code)> completion(handler);
detail::read_op<AsyncReadStream, DynamicBuffer,
isRequest, Body, Headers, decltype(
completion.handler)>{completion.handler,
stream, dynabuf, m};
return completion.result.get();
}
} // http
} // beast
#endif
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