I have some socket connection code that makes use of boost::asio which reads from a socket the first 5 chars, from which it can determine if the sent string was compressed using zlib library. The project I'm currently doing is a rewrite of something existing, so I took some of the existing code and made it more C++ like, instead of C. However in the code it has a call to memcpy, which to me seems entirely redundant, however if that call is not there, the call to async_read does never get called, which is what I don't get. Why? What is the purpose of this memcpy call and why does it need to be there, from all indicators?

/*check for zlib compression and then call handle_read_s which gets the rest of the data and decompresses if necessary.*/
/// buff is a vector<char>
/// tempbuff is a char[5]
void tcp_connection::handle_read(const boost::system::error_code& err, size_t bytes_transferred, endpoint_ptr ptr)
    unsigned long maxsz = 1024; //0xffffffff;
    size_t size = 1024;
    b_zlib = false;

    if (!err || err ==  boost::asio::error::message_size)
        if (bytes_transferred >= 4)
            if (tempbuff[0] == 'Z')
                b_zlib = true;

            //Remove 4 bytes & remove memcpy
            memcpy(&maxsz, &tempbuff[1], 4);   //removing this makes my code unworkable, I don't get it?
            buff.resize(maxsz);  //passing anything else here also kills it?!!
            boost::asio::async_read(socket_, boost::asio::buffer(buff), boost::bind(&tcp_connection::handle_read_s, shared_from_this(), boost::asio::placeholders::error, boost::asio::placeholders::bytes_transferred, ptr));

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    Could you please explain why you think, the memcpy() would be redundant? What other part of the code would do the same thing? Remember, the first parameter of memcpy() is the destination. – Tilman Vogel May 3 '11 at 8:59
  • @Tilman, I seemed to have forgotten that it got the size of the to be gotten data, and I had a discussion with a coworker that seemed to indicate it was redundant, as he thought it was getting rid of those bytes and not getting a size. He does have more experience then me, so that he thought this worries me. :( – Tony The Lion May 3 '11 at 9:14

The purpose of the memcpy is to render the code unportable, and introduce awkward bugs when the code is compiled on another machine. What it does is set maxsz to some value depending on what you just read. Whether the value is correct depends on the machine. (If I can trust the names, there is also undefined behavior is bytes_transferred is equal to 4. And there will be undefined behavior if you port to a machine where unsigned long is 64 bits.)

Depending on the protocol, you should either use:

maxsz = static_cast<unsigned char>(tempbuff[1])
    | (static_cast<unsigned char>(tempbuff[2]) << 8)
    | (static_cast<unsigned char>(tempbuff[3]) << 16)
    | (static_cast<unsigned char>(tempbuff[4]) << 24);


maxsz = (static_cast<unsigned char>(tempbuff[1]) << 24)
    | (static_cast<unsigned char>(tempbuff[2]) << 16)
    | (static_cast<unsigned char>(tempbuff[3]) << 8)
    | static_cast<unsigned char>(tempbuff[4]);

(Change the type of tempbuff to unsigned char[5], and you can eliminate the static_cast. This may require other changes elsewhere, however.)

Also, the second if should almost certainly be:

if ( bytes_transferred > 4 )

, not >= (or alternatively >= 5). Or the name shouldn't be bytes_transferred. Your code accesses all five bytes of tempbuff. (For that matter, I suspect that if bytes_transferred isn't exactly 5, things will screw up.)

  • I appreciate your input, code unportable? why would anyone do that? Protocol is TCP. As others have said, maxsz should contain the size of the buffer that is to be gotten next from the socket. – Tony The Lion May 3 '11 at 8:58
  • @Tony The Tiger If the protocol is TCP, the code as written will only work on a big-endian, 32 bit machine. Something that practically doesn't exist any more. (Unless there is additional code somewhere that you're not showing us.) As to why someone would write unportable code here: ignorance (or naïvety), incompetence, or simply carelessness. (The more or less obvious error in the test of bytes_transferred suggests a great deal of carelessness in the original code.) – James Kanze May 3 '11 at 9:05
  • I admit that the bytes_transferred was my doing and I guess that was due to my ignorance. The memcpy came straight from the original code. – Tony The Lion May 3 '11 at 9:12
  • so which of the above of your suggestions should I use then? to make it work on 64bit architectures? – Tony The Lion May 3 '11 at 9:18
  • @Tony The Tiger Both will work correctly on all architectures; which one is correct depends on the format of the data you're reading. If it is part of the TCP protocol (and not the payload), then the second is correct. But if this were the case, the 'Z' couldn't be there. – James Kanze May 3 '11 at 10:42

This code is telling you the size of the buffer required.

memcpy(&maxsz, &tempbuff[1], 4);

And this code is resizing your buffer


That code is essentially the same as the following, which I assume looks more familiar to you:

maxsz = *reinterpret_cast<unsigned long*>(&tempBuff[1]);
// or possibly, depending on endianness, ...
maxsz = ntohl(*reinterpret_cast<unsigned long*>(&tempBuff[1]));

The difference is that using memcpy in the manner your code does is standard-compliant whereas using reinterpret_cast as shown here invokes undefined behavior.

  • but I was asking for why the memcpy should be there? why does it not work without it? – Tony The Lion May 3 '11 at 8:44
  • @Tony The Tiger : The invocation of memcpy sets the proper value of maxsz; why would you think this is optional or unnecessary? – ildjarn May 3 '11 at 8:46
  • can I do the same using std::copy? – Tony The Lion May 3 '11 at 8:49
  • Neither work here except in the very restricted case where the hardware happens to use the exact format that is present on the line. Which is rarely the case: most protocols are big-endian; the most common hardware is little-endian. And unsigned long is likely to be 8 bytes anyway. – James Kanze May 3 '11 at 8:57
  • @Tony The Tiger : Yes, I believe the following is technically standard-compliant: char* maxszbuf = static_cast<char*>(static_cast<void*>(&maxsz)); std::copy(&tempBuff[1], &tempBuff[1 + sizeof(unsigned long)], maxszbuf); – ildjarn May 3 '11 at 11:09

I think the first 4 bytes of tempbuff the size of buffer so it reads the first 4 bytes, determines the size of the buffer and then resizes the buffer to that size. Doing this in reinterpret_cast like ildjarn will make it more C++ like.

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    @Dani : The point of my post was, doing it using reinterpret_cast looks more like C++, but is actually illegal. Using memcpy here is actually the correct thing to do. – ildjarn May 3 '11 at 8:47
  • @Dani, you should reread ildjarn's answer carefully and consider amending your answer... – Tony The Lion May 3 '11 at 8:47
  • @James Kanze : To my knowledge, using memcpy in this fashion has defined behavior, unlike reinterpret_cast. (Aside from this code relying on sizeof(unsigned long) being 4) – ildjarn May 3 '11 at 9:03
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    @James Kanze : §5.2.10/7 of the C++03 standard specifically says the results of this use of reinterpret_cast are "unspecified", whereas §3.9/2 specifically allows and guarantees this use of memcpy. Regarding depending on the value of sizeof(unsigned long), no it's not the best idea, but that in no way implies a failing on the part of using memcpy; this is simply a situation where something like uint32_t + Boost.Endian is warranted rather than naked unsigned long. As an aside, sizeof(unsigned long) is 4 on modern MSVC and GCC, even for x64. – ildjarn May 3 '11 at 10:53
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    @ildjarn There are two "variables" in the equation: the representation of an unsigned long on his platform, and the representation of the integer he is trying to read in the file. If he knows that the code will never be used other than on Windows, he knows the internal format. If that corresponds exactly to the documented format, he can get away with either the reinterpret_cast (because regardless of how you interpret the standard, it works with MSVC) or memcpy. I just hope his crystal ball is working, though. – James Kanze May 3 '11 at 14:41

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