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I am developing a program in C++, using the string container , as in std::string to store network data from the socket (this is peachy), I receive the data in a maximum possible 1452 byte frame at a time, the protocol uses a header that contains information about the data area portion of the packets length, and header is a fixed 20 byte length. My problem is that a string is giving me an unknown debug assertion, as in , it asserts , but I get NO message about the string. Now considering I can receive more than a single packet in a frame at a any time, I place all received data into the string , reinterpret_cast to my data struct, calculate the total length of the packet, then copy the data portion of the packet into a string for regex processing, At this point i do a string.erase, as in mybuff.Erase(totalPackLen); <~ THIS is whats calling the assert, but totalpacklen is less than the strings size.

Is there some convention I am missing here? Or is it that the std::string really is an inappropriate choice here? Ty.

Fixed it on my own. Rolled my own VERY simple buffer with a few C calls :)

int ret = recv(socket,m_buff,0);
if(ret > 0)

    while(BigBuff.size() > 16){
        Header *hdr = reinterpret_cast<Header*>(&BigBuff[0]);
        if(ntohs(hdr->PackLen) <= BigBuff.size() - 20){
            hdr->PackLen = ntohs(hdr->PackLen);
            string lData;
            lData.append(BigBuff.begin() + 20,BigBuff.begin() + 20 + hdr->PackLen);
            Parse(lData); //regex parsing helper function
            BigBuff.erase(hdr->PackLen + 20); //assert here when len is packlen is 235 and string len is 1458;
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images show whats going on, and sorry for the C style casts –  johnathon May 29 '11 at 3:03
Code would be much more helpful than screenshots from Visual Studio. Also, if your data contains \000, then std::vector<char> may be a more appropriate container for it. –  Johnsyweb May 29 '11 at 3:12
Instead of a screenshot (which isn't very useful), please post complete, concise sample code and a stack dump. For more guidelines, read "Writing the Perfect Question". –  outis May 29 '11 at 3:14
indeed the data does contain 0x00. –  johnathon May 29 '11 at 3:16
I'm suspicious about the reinterpret_cast<type>(value); that tells the compiler "believe me, I know exactly what I'm doing". Are you sure that you know enough to tell the compiler that? –  Jonathan Leffler May 29 '11 at 3:30

2 Answers 2

up vote 0 down vote accepted

Your comment doesn't make sense:

    BigBuff.erase(hdr->PackLen + 20); //assert here when len is packlen is 235 and string len is 1458;

BigBuff.erase(hdr->PackLen + 20) will erase from hdr->PackLen + 20 onwards till the end of the string. From the description of the code - seems to me that you're erasing beyond the end of the content data. Here's the reference for std::string::erase() for you.

Needless to say that std::string is entirely inappropriate here, it should be std::vector.

share|improve this answer
Might have been. Dumped it though. STL containers have their place, this application is not one of them. –  johnathon May 30 '11 at 11:27
Ya know. I'll plus ya , You may passing through, but at least your the only person that even tried to help beyond making assumptions about the purpose of the code and if i knew was i was doing in regions other than where it really was. As far as data serialization goes i can do it in my sleep. counting bytes yadda yadda, STL .. special containers that "act" like their raw data counterparts... not so much :)) –  johnathon May 30 '11 at 11:54

From the code snippet you provided it appears that your packet comprises a fixed-length binary header followed by a variable length ASCII string as a payload. Your first mistake is here:


There are at least two problems here:
1. Why the append? You presumably have dispatched with any previous messages. You should be starting with a clean slate.
2. Mixing binary and string data can work, but more often than not it doesn't. It is usually better to keep the binary and ASCII data separate. Don't use std::string for non-string data.

Append adds data to the end of the string. The very next statement after the append is a test for a length of 16, which says to me that you should have started fresh. In the same vein you do that reinterpret cast from BigBuff[0]:

Header *hdr = reinterpret_cast<Header*>(&BigBuff[0]);

Because of your use of append, you are perpetually dealing with the header from the first packet received rather than the current packet. Finally, there's that erase:

BigBuff.erase(hdr->PackLen + 20);

Many problems here:
- If the packet length and the return value from recv are consistent the very first call will do nothing (the erase is at but not past the end of the string).
- There is something very wrong if the packet length and the return value from recv are not consistent. It might mean, for example, that multiple physical frames are needed to form a single logical frame, and that in turn means you need to go back to square one.
- Suppose the physical and logical frames are one and the same, you're still going about this all wrong. As noted, the first time around you are erasing exactly nothing. That append at the start of the loop is exactly what you don't want to do.

Serialization oftentimes is a low-level concept and is best treated as such.

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"Serialization oftentimes is a low-level concept and is best treated as such" +1 for that! –  littleadv May 29 '11 at 6:31
Rolled my own buffer. Better at C anyways –  johnathon May 30 '11 at 11:07
As far as mixing the binary data, you HAVE to, when your ethernet frames are 1500MTU (rougly 1452 bytes on the wire) big. So yes, thats WHY theres a binary header in the packet to begin with, to denote the end of the ascii payload and the start of the next binary payload. The real problems are this. Std::vector will not erase from the front of the array ( at least , im not STL wise enough to figure out how to make the damn thing to it without iteration out the arse on a packet thats almost 9k big.) , So, while a vector<char> would be seeming to be right –  johnathon May 30 '11 at 11:09
It's really NOT. Because on each sucesive call to receive, the sockets internal buffer has to be drained off a bit to make room for more data comming in on the wire. –  johnathon May 30 '11 at 11:10
You appear to be spending a lot of time justifying what appears to be a bad design. You came here for help. Why are you rejecting it? That you are getting fatal errors during execution is direct evidence that there is something seriously wrong with your design. –  David Hammen May 30 '11 at 18:22

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