-1

I am writing a very simple HTTP server based on: http://www.boost.org/doc/libs/1_62_0/doc/html/boost_asio/example/cpp11/echo/async_tcp_echo_server.cpp

I have tried numerous techniques to extract the data from a boost::asio::streambuf in order to parse HTTP headers. The streambuf object does not appear to manage it's memory properly (or, more likely, I am mis-using it) & I end up getting a seg fault.

As you can see from the code, none of the techniques suggested here or here work. I suspect this is because I'm using boost::asio::async_read_until() to read all the headers, rather than just a single header at a time as most other coders appear to be doing.

Any advice/pointers would be appreciated.

/*
    g++ -D TRY1 -ggdb3 -I $e/boost-1.62/include /tmp/streambuf.bug.cc $e/boost-1.62/lib/libboost_system.a -D TRY1

    or

    g++ -D TRY2 -ggdb3 -I $e/boost-1.62/include /tmp/streambuf.bug.cc $e/boost-1.62/lib/libboost_system.a -D TRY2

    or

    g++ -D TRY3 -ggdb3 -I $e/boost-1.62/include /tmp/streambuf.bug.cc $e/boost-1.62/lib/libboost_system.a -D TRY3
*/

#include <cstdlib>
#include <iostream>
#include <memory>
#include <utility>
#include <boost/asio.hpp>
#include <boost/bind.hpp>

using boost::asio::ip::tcp;

class session : public std::enable_shared_from_this<session>
{
    public:
        session(tcp::socket socket) : socket_(std::move(socket)), dbg(true) {
            assert(headers.empty());
            memset(padding, 0, 10000);
            std::cout << "buffer size: " << buffer.max_size() << '\n';
        }

        void start() { readHeaders(); }

    private:
        void readHeaders() {
            if (dbg)
                std::cout << "readHeaders() start\n";
            //auto self(shared_from_this());

            boost::asio::async_read_until(socket_, buffer, "\r\n\r\n", [this](const boost::system::error_code &ec, std::size_t length) {
                if (dbg)
                    std::cout << "Read " << length << " bytes of headers in async_read_until()\n";
                if (ec)
                    throw std::runtime_error("Error code in readHeaders()");


#ifdef TRY1
                std::istream stream(&buffer);
                std::string str;
                assert(!corrupted("A1"));
                while (std::getline(stream, str)) { // seg fault! (on 3rd invocation)
                    assert(!corrupted("A2"));
                    std::cout << "str=" << str << '\n';
                    assert(!corrupted("A3"));
                }
#endif


#if 0
                std::string str;
                boost::asio::buffer_copy(boost::asio::buffer(str), buffer); // ugh, won't compile
#endif


#if 0
                std::vector<unsigned char> v(buffer.size());
                boost::asio::buffer_copy(boost::asio::buffer(v), buffer); // ugh, won't compile
                const std::string str(v.begin(), v.end());
#endif


#ifdef TRY2
                std::string str;
                auto data = buffer.data();
                assert(!corrupted("B1"));
                for (auto it = data.begin(); it != data.end(); ++it) {
                    const auto buf = *it;
                    std::cout << "buf_size=" << boost::asio::buffer_size(buf) << '\n';
                    assert(!corrupted("B2"));
                    const char *tmp = boost::asio::buffer_cast<const char *>(buf);
                    assert(!corrupted("B3"));
                    str.append(tmp); // BUG!!
                    assert(!corrupted("B4")); // fails
                }
#endif


#ifdef TRY3
                auto data = buffer.data();
                auto end = data.end();
                std::string str;
                assert(!corrupted("C1"));
                for (auto it = data.begin(); it != end; ++it) {
                    assert(!corrupted("C2"));
                    std::vector<unsigned char> v(boost::asio::buffer_size(*it));
                    assert(!corrupted("C3"));
                    boost::asio::buffer_copy(boost::asio::buffer(v), *it); // BUG!!
                    assert(!corrupted("C4")); // fails
                    str.append(v.begin(), v.end());
                    assert(!corrupted("C5"));
                }
#endif

#ifdef TRY4
                assert(!corrupted("D1"));
                const std::string str(boost::asio::buffers_begin(buffer.data()), boost::asio::buffers_end(buffer.data())); // BUG!!
                assert(!corrupted("D2")); // fails
#endif

#ifdef TRY5
                assert(!corrupted("E1"));
                const std::string str((std::istreambuf_iterator<char>(&buffer)), std::istreambuf_iterator<char>()); // seg faults!
                assert(!corrupted("E2"));
#endif

#ifdef TRY6
                boost::asio::streambuf::const_buffers_type bufs = buffer.data();
                assert(!corrupted("F1"));
                std::string str(boost::asio::buffers_begin(bufs), boost::asio::buffers_begin(bufs) + buffer.size()); // BUG!!
                assert(!corrupted("F2")); // fails
#endif

                assert(!corrupted("Z1"));
                std::cout << "str=" << str << "end of data\n";
                std::istringstream input(str);
                std::string line;
                while (std::getline(input, line)) {
                    assert(!corrupted("Z2"));
                    if (line.size() == 1)
                        continue; // blank line
                    if (line.substr(0, 3) == "GET")
                        continue; // TODO: handle properly
                    const auto idx = line.find(':');
                    assert(idx != std::string::npos);
                    const std::string key(line.begin(), line.begin() + idx);
                    const std::string val(line.begin() + idx + 2, line.end());
                    // std::cout << "key=" << key << " val=" << val << '\n';
                    assert(!corrupted("Z3"));
                    headers[key] = val;
                    assert(!corrupted("Z4"));
                }
                assert(!corrupted("Z5"));
                for (auto it3 : headers) {
                    std::cout << it3.first << '=' << it3.second << '\n';
                }

                const auto it2 = headers.find("Content Length");
                contentLength = (it2 == headers.end() ? 0 : atoi(it2->second.c_str()));
                if (contentLength > 0) {
                    const boost::system::error_code ec; // (boost::system::errc::success);
                    readBody(ec);
                }
            });
            if (dbg)
                std::cout << "readHeaders() end\n";
        }

        void readBody (const boost::system::error_code &ec) {
            if (dbg)
                std::cout << "readBody()\n";
            if (ec)
                throw std::runtime_error("Error code in readBody()");

            boost::asio::streambuf::const_buffers_type bufs = buffer.data();
            body.append(boost::asio::buffers_begin(bufs), boost::asio::buffers_begin(bufs) + buffer.size());

            if (dbg)
                std::cout << "body.size=" << body.size() << " content length=" << contentLength << '\n';

            boost::asio::async_read(socket_,
                                    buffer,
                                    boost::asio::transfer_at_least(1),
                                    boost::bind(&session::readBody, this, boost::asio::placeholders::error));
        }

        bool corrupted (const std::string s) const {
            bool b = false;
            if (strlen(padding) > 0) {
                std::cout << "buffer overflow detected @ " << s << "! padding is: " << padding << '\n';
                std::cout.flush();
                b = true;
            }
            if (headers.size() > 1000) {
                std::cout << headers.size() << " headers!!\n";
                b = true;
            }
            return b;
        }

        tcp::socket socket_;
        boost::asio::streambuf buffer;
        char padding[10000]; // $buffer appears not to manage it's memory properly. Add some padding to detect overflows.
        std::map<std::string, std::string> headers;
        uint contentLength;
        std::string body;
        const bool dbg;
};

class server
{
    public:
        server(boost::asio::io_service& io_service, short port) : acceptor_(io_service, tcp::endpoint(tcp::v4(), port)), socket_(io_service) {
            do_accept();
        }

    private:
        void do_accept() {
            acceptor_.async_accept(socket_, [this](boost::system::error_code ec) {
                if (!ec) {
                    std::cout << "Connection accepted\n";
                    std::make_shared<session>(std::move(socket_))->start();
                }
                do_accept();
            });
        }

        tcp::acceptor acceptor_;
        tcp::socket socket_;
};

int main(int argc, char* argv[])
{
    try {
        if (argc != 2) {
            std::cerr << "Usage: async_tcp_echo_server <port>\n";
            return 1;
        }

        boost::asio::io_service io_service;
        server s(io_service, std::atoi(argv[1]));

        io_service.run();
    } catch (std::exception& e) {
        std::cerr << "Exception: " << e.what() << "\n";
    }

    return 0;
}

I am using boost v1.62, gcc v6.1 on Linux (Ubuntu 12.04).

2
  • Undefined behavior is being invoked. The program fails to meet the lifetime requirement for async_read_until()'s b parameter, as session and streambuf are being destroyed before the completion handler is invoked. The official Asio example guarantees that the lifetime of the session is at least as long as the completion handler by capturing the results of shared_from_this() in the lambda capture. – Tanner Sansbury Dec 22 '16 at 4:19
  • @TannerSansbury, ahhhh this makes sense. Thank-you very much! – Scott Smedley Dec 22 '16 at 5:27
3
  • You can read from the streambuf

    • manually (see documentation)
    • using std::istream:

      boost::asio::streambuf buf;
      std::istream is(&buf);
      
      // usual extraction:
      int i;
      if (is >> i) {
          // use `i`
      }         
      
      // or usual line-wise extraction:
      std::string line;
      while (std::getline(is, line)) {
          // do something with `line`
      }
      
  • alternative use boost::asio::buffer_* functions (buffer_begin(), buffer_end() and buffer_copy) - How copy or reuse boost::asio::streambuf?

1
  • sehe, as you can see from the code, none of these methods appear to work. Something else must be wrong with the code. – Scott Smedley Dec 21 '16 at 22:20
2

Copying the contents of a boost::asio::streambuf as a string has been answered in both the Copy a streambuf's contents to a string and How copy or reuse boost::asio::streambuf questions:

boost::asio::streambuf source;
...
std::string target{buffers_begin(source.data()), buffers_end(source.data())};

The problems being observed are the result of undefined behavior. The program fails to meet the lifetime requirement for async_read_until()'s b parameter, as the streambuf are being destroyed before the completion handler is invoked:

[...] Ownership of the streambuf is retained by the caller, which must guarantee that it remains valid until the handler is called.

In this case, streambuf is a data member of session, and session objects are managed by a shared pointer. The only shared pointer managing session is both created and destroyed in the following expression:

std::make_shared<session>(std::move(socket_))->start();

Within start(), an async_read_until() operation is initiated. However, upon returning form start(), the session's buffer is destroyed before the async_read_until()'s completion handler is invoked, violating the lifetime requirement.

The idiomatic solution used by the official Asio examples is to capture the results of shared_from_this() in the completion handler's lambda capture. This guarantees that the lifetime of the session will be at least as long as the completion handler.

auto self(shared_from_this());
async_read_until(socket_, buffer_, ...,
  [this, self](boost::system::error_code& ec, std::size_t length)
  {
    // `self` keeps the `session` alive for the lifetime of the
    // handler.  If more async operations are initiated from within
    // this handler, then the completion handlers should capture
    // `self` as well.
    ...
  });
0

The exact answer to your question gave sehe. Below is some pseudocode I am using currently for parsing headers.

// This is where to store headers.
_STL::map<_STL::string, _STL::string> m_headers;

// buffer is of type asio::streambuf and contains response from asio::async_read_until
_STL::istream response_stream_headers(&buffer);

// Some helper variables.
_STL::string header, header_name, header_value;

while (true) {
  _STL::getline(response_stream_headers, header, '\r');

  // Remove \n symbol from the stream.
  response_stream_headers.get();

  if (header == "") {
    // We reached end of headers, there might be still some more data!!
    break;
  }

  // Parse header to key->value
  size_t separator_pos = header.find(':');
  if (separator_pos != _STL::string::npos) {
    header_name = header.substr(0, separator_pos);

    if (separator_pos < header.length() - 1) {
      header_value = header.substr(separator_pos + 1);
    }
    else {
      header_value = "";
    }

    boost::trim_left(header_value);
    m_headers[name] = value;
  }
}

// Parsing is done, but some of the request response could have been reed by 
// asio::async_read_until, so whe read response_stream_headers untill end.
// You should use body_response_start as the begining of your response.
std::string body_response_start(std::istreambuf_iterator<char>(response_stream_headers), {});

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