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I apologize ahead of time for my lack of c knowledge, as I am a native FORTRAN programmer. I was given some c code to debug which ingests a binary file and parses it into an input file containing several hundred records (871, to be exact) for a Fortran program that I'm working with. The problem is that these input binaries, and the associated c code, were created in a Windows environment. The parser reads through the binary until it reaches the end of the file:

SAGE_Lvl0_Packet GetNextPacket()

   int i;
   SAGE_Lvl0_Packet  inpkt;
   WORD              rdbuf[128]; 
   fprintf(stdout,"Nbytes: %u\n",Nbytes);//returns 224
   if((i = fread(rdbuf,Nbytes,1,Fp)) != 1)
      FileEnd = 1;
       if(FileType == 0)
    return inpkt;

So when the code gets to packet 872, this snippet should return FileEnd = 1. Instead, the parser attempts to read a large amount of data from (near) the end of the file. This, I would think, would cause the program to crash (at least it would in Fortran. Would c just start reading the next portion of memory?) Fortunately, there is a CRC later on in the code that catches that the parser isn't reading correct data and exits gracefully.

I assume the problem originates with the binary buffer size and value in a Windows binary being larger/different than that in Linux. If that is the case, is there an easy way to convert Windows' binaries to Linux either in c or Linux? If I'm wrong in my assumption, then perhaps I need to look over the code some more. BTW, a WORD is an unsigned short int, and a SAGE_Lvl0_Packet is a 3-tiered structure with a total of 106 WORDs.

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Very, very short answer: feof. –  iced Sep 20 '12 at 19:56

1 Answer 1

up vote 1 down vote accepted

I think the biggest problem here is that, when fread() indicates end of file, the FileEnd flag gets set, but the function still ends up returning an (invalid) zeroed-out packet. Not a particularly robust design. I assume that the caller should be checking FileEnd before it attempts to use the packet just returned, but since that's not shown, it's quite possible that's a false assumption.

Also, not knowing what the packet looks like, it's impossible to tell whether the various memcpy() calls are correct. The fact that memcpy() is asked to copy 224 bytes into a structure that is supposedly only 212 bytes long is highly problematic.

There are likely other issues, but those are the big ones I see at the moment.

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I may be wrong on the actual size of the packet. I say this because there are 4 words defined as (for instance) WORD PacketType : 10. I presumed this to mean that PacketType is only 10 bits long, but perhaps PacketType still takes up a 16 bit block of memory. –  text58 Sep 20 '12 at 20:28
And I apologize for not posting the rest of the code - I know that can be frustrating - but this is code that goes along with controlling a satellite, so I don't want to post too much of it up here. –  text58 Sep 20 '12 at 20:32

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