I'm planning to write a linux driver for some memory-mapped hardware (it's in an FPGA, so I can adjust this memory-mapped interface at both ends if needed).
This FPGA logic generates a sequence of datagrams, which I must process and then transmit over an Ethernet link. There's no reason for either the processing or the networking code to be in the kernel, so I'm asking about the "best" mechanism for moving blocks of data from hardware to user-space. The biggest complication is that the user-space processing should be distributed among multiple processes.
The data rate is not very high (up to 1Mbps) and the mmio interface is fed by a rather deep FIFO (2KB currently, could be increased as high as 8KB) so I think a high priority user-mode process could keep up.
What I'd really like is a pointer to an existing driver with an existing multicast userspace interface (and not complicated with much else). But an outline of what must be done would be a reasonable substitute.
I've collected the following ideas so far:
AF_NETLINK: supports multicast, takes care of buffering for me. But the API is unstable, I have to define a new socket id which may conflict with other in-tree drivers, and the user-mode interface is quite specialized, I can't use standard tools like
socatto test the data stream.
Pass a datagram-mode socket or FIFO file descriptor in from userspace, and write to it (how?). There's a unix-domain datagram socket multicast patch that I could apply.
Expose a character-mode device to a single high-priority user-mode application, which acts as a unix-domain datagram socket server and copies the datagrams to each connected node. Are datagram boundaries preserved for character-mode devices (i.e. if my driver
readfunction returns fewer bytes than the
freadbuffer size, will
freadreturn that block of data as a unit, or can it fragment and reassemble blocks? Does it help if I use
read (2)instead of
fread (3)? Is there anything like
EMSGSIZEthat a driver's read function can use to indicate that a datagram was truncated, or is that available only for sockets?)
Expose a character-mode device which can be opened by multiple user-mode applications simultaneously, and buffer data to each in-kernel.
I'm leaning toward the character-mode device with a unix domain server which reroutes incoming packets. This saves me from having to implement buffering logic inside the kernel driver. The question then becomes how to wake the user process from a
select call or blocking read when an interrupt occurs. It seems that my
poll function can read the control register and return
POLLIN|POLLRDNORM if data is already available, and unmask the interrupt if not. And then the interrupt handler would use
wake_up to flag the
wait_queue as ready.
read would always mask the interrupt.