What is the difference between "zero-copy networking" and "kernel bypass"? Are they two phrases meaning the same thing, or different? Is kernel bypass a technique used within "zero copy networking" and this is the relationship?
You're doing zero-copy networking when you never copy the data between the user-space and the kernel-space (I mean memory space). By example:
By default the data are copied:
With zero-copy method, the data are not copied and come to the user-space directly from the network stack.
The kernel bypass is when you manage yourself, in the user-space, the network stack and hardware stuff. It is hard, but you will gain a lot of performance (there is zero copy, since all the data are in the user-space). This link could be interesting if you want more information.
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This mode of communicating should also be considered. It maybe possible for DMA-to-DMA transactions which do not involve the CPU at all. The idea is to use
The zero copy concept is only that the network buffers are fixed in place and are not moved around. In many cases, this is not really beneficial. Most modern network hardware supports scatter gather, also know as buffer descriptors, etc. The idea is the network hardware understands physical pointers. The buffer descriptor typically consists of,
The benefit is that the network headers do not need to exist side-by-side and IP, TCP, and Application headers can reside physically seperate from the application data.
If a controller doesn't support this, then the TCP/IP headers must precede the user data so that they can be filled in before sending to the network controller.
Of course, you can bypass the kernel. This is what pcap and other sniffer software has been doing for some time. However, it is difficult to see a case where user space will have a definite win unless it is tied to the particular hardware. Some network controllers may have scatter gather supported in the controller and others may not.