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I am interested in accessing network packets via "bus-mastering" in a C++ application on Linux. I have a few questions relating to this overall topic:

1) How will I know which memory address range the "bus-mastering"-enabled Network card is writing the data to and would this be kernel or user space?

2) If #2 is "Kernel space", how could I change the card so that it writes to memory in user space?

3a) How can I access this particular user-space memory area from C++?

3b) I understand you cannot just start accessing memory areas of other processes from one application, only those explicitly "shared"- so how do I ensure the memory area written to directly by the network card is explicitly for sharing?

4) How do I know whether a network card implements "bus-mastering"?

I have come across the term PACKET_MMAP - is this going to be what I need?

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Is it fair to say most people would understand this concept as "DMA" even if it technically isnt? –  user997112 Aug 17 '13 at 20:28
Have edited to reflect your advice- thanks. –  user997112 Aug 17 '13 at 20:46
en.wikipedia.org/wiki/Zero-copy –  didierc Aug 17 '13 at 20:51
@didierc Thanks- but I am asking for practical code/advice how to actually implement this. –  user997112 Aug 17 '13 at 20:52
You could use the mmap syscall to create an in memory buffer bound to a descriptor created specifically for the situation, then use the splice syscall to zero-copy data from the mmap buffer to the socket buffer. I guess it would be interesting to use the mmap space as an allocation space for pod type objects, thus avoiding the need to copy your data there. –  didierc Aug 17 '13 at 21:12
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1 Answer

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If you mmap a region of memory, and give the address of that to the OS, the OS can lock that region (so that it doesn't become swapped out) and get the physical address of the memory.

It is not at all used for that purpose, but the code in drivers/xen/privcmd.c, in the function mmap_mfn_range called from privcmd_ioctl_mmap (indirectly, by traverse_map). This in turn calls remap_area_mfn_pte_fn from xen_remap_domain_mfn_range.

So, if you do something along those lines in the driver, such that the pages are locked into memory and belong to the application, you can program the physical address(es) of the mmap'd region into the hardware of the network driver, and get the data directly to the user-mode memory that was mmap'd by the user code.

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So basically create a hard-coded address range in userland, then go in to the driver and change where the data is sent- send it to userland and then pick up the data from C++ app? What prevents another process from writing to that memory region in userland? How does this approach compare with PACKET_MMAP (wiki.ipxwarzone.com/index.php5?title=Linux_packet_mmap)? –  user997112 Aug 18 '13 at 0:02
mmap maps a region of physical memory into the space of that process to a virtual address - the address is not available to any other process, and it doesn't have to be hard-coded, it could be the result of a random number, or, better yet, let the OS pick one itself (give address NULL). I only quickly read your link, as it seems to be referring to Linux 2.4 and 2.6, which is a bit old... –  Mats Petersson Aug 18 '13 at 8:10
Looks like the packet_mmap is using a similar method (without looking at the driver side of things). –  Mats Petersson Aug 18 '13 at 8:14
One bit I dont get- how will the NIC and the C++ app know to write/retrieve from the same "user land" address range if its not hard-coded in the driver (and C++ application)? –  user997112 Aug 18 '13 at 18:24
Because you pass the address of the mmap'd region to the card. Using a hard coded virtual address won't help, as the virtual address isn't what the card needs, it needs the physical address (and to know that, you need both which process it is and what the virtual address is). –  Mats Petersson Aug 18 '13 at 20:34
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