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Here is the situation: in my scenario I have, 3 computers, A, B and C.

Computer A sends data to computer B. Computer B captures these packets with pcap, appends the headers, redoes the checksums, and injects it out another ethernet interface to computer C. So basically A sends to C, though through C's point of view, the data is coming from computer B.

My problem is this: following TCPDUMP's tutorial on dissecting a captured packet, I've learned to calculate offsets and using typecasting to obtain ethernet, ip, and tcp header structures. The method of doing so is shown below:

ethernet = (struct sniff_ethernet*)(packet);
ip = (struct sniff_ip*)(packet + SIZE_ETHERNET);
size_ip = IP_HL(ip)*4;
if (size_ip < 20) {
    printf("   * Invalid IP header length: %u bytes\n", size_ip);
tcp = (struct sniff_tcp*)(packet + SIZE_ETHERNET + size_ip);
size_tcp = TH_OFF(tcp)*4;
if (size_tcp < 20) {
    printf("   * Invalid TCP header length: %u bytes\n", size_tcp);
payload = (u_char *)(packet + SIZE_ETHERNET + size_ip + size_tcp);

Because I want to inject the captured packet to send it from computer B to computer C, I must modify some of the source/destination information and recalculate the checksum when I'm done. However, my issue is, since this data is now separated into structures of ethernet header, IP header, and TCP headers, how do I put it back together into a u_char that pcap_inject can use?

Is it possible to do some sort of concatenation here?

share|improve this question
up vote 1 down vote accepted

From the code I see here, you're not actually dissecting the memory that libpcap captured for you. Each of the casting operations simply tells the compiler how you intend to treat the bytes starting from a pointer -- what size those objects are, what offsets to find which pieces of data and how long they are.

If you modify this memory through those pointers, you've modified the one and only copy of it in the process memory -- and can use some of the "more basic" pointers to hand the entire block of memory to sendmsg(2) or whatever without needing to reassemble the data -- you never took it apart.


To inject the packets back on the network you need to use the raw(7) socket type; the IPPROTO_RAW socket option is required to send TCP packets through a raw(7) socket -- otherwise, all TCP packets would be directed to the raw(7) socket you open, making networking on the machine difficult to use.

The raw(7) sockets will perform some re-calculation tasks for you:

   A protocol of IPPROTO_RAW implies enabled IP_HDRINCL and is
   able to send any IP protocol that is specified in the passed
   header.  Receiving of all IP protocols via IPPROTO_RAW is not
   possible using raw sockets.

          │IP Header fields modified on sending by IP_HDRINCL │
          │IP Checksum           │Always filled in.           │
          │Source Address        │Filled in when zero.        │
          │Packet Id             │Filled in when zero.        │
          │Total Length          │Always filled in.           │

   If IP_HDRINCL is specified and the IP header has a nonzero
   destination address then the destination address of the
   socket is used to route the packet.  When MSG_DONTROUTE is
   specified, the destination address should refer to a local
   interface, otherwise a routing table lookup is done anyway
   but gatewayed routes are ignored.

   If IP_HDRINCL isn't set, then IP header options can be set on
   raw sockets with setsockopt(2); see ip(7) for more

Let the kernel re-calculate whatever it is willing to do for you.

share|improve this answer
I only copied a snippet of the tutorial. The tutorial is here: tcpdump.org/pcap.html and the code is here:tcpdump.org/sniffex.c anyhow, what they seem to be doing is filling out the structures for each type of header by doing the type casting. So I was wondering if there is some sort of easy reverse process i can do to reconstruct a packet and give it to the injector function. sorry if what I'm asking seems to be kind of misinformed. I'm doing this for a senior design project in EE. CS and code related stuff is really something I'm picking up. – maoshouse Nov 19 '11 at 10:34
Ah. I don't see any modification there, but I also didn't see any code that looked like it actually made copies of the data either. – sarnold Nov 19 '11 at 10:37
I pressed enter and accidentally posted prematurely. I was editing the comment to make room for more stuff. – maoshouse Nov 19 '11 at 10:38
You've definitely found something out-of-the-way to try to implement, good work there. :) What are you really trying to do? I'm beginning to think that there might be better tools. – sarnold Nov 19 '11 at 10:44
Well, my the goal of my project is to be able to let a client computer fall asleep while giving the illusion that it is still present on the network. So the code I am writing is to be run on a low power device that sits between the network and the client. When the client is on, all it needs to do is capture, fix headers, inject to client (forwarding). if the client is asleep, I cache the data that needs to be fwded, wake client via magic packet, then send cached data. I know I could just let the device be a NAT but I want other boxes to be able to talk as if there were no intermediate device. – maoshouse Nov 19 '11 at 10:57

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