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I'm having what appears to be a caching problem when using /dev/mem with mmap on a dual ARM processor system (Xilinx Zynq, to be exact). My configuration is asymmettric, with one processor running Linux and the other processor running a bare metal application. They communicate through a block of RAM that isn't in the Linux virtual memory space (it was excluded by the devicetree file). When my userspace Linux application writes to memory using the pointer returned from mmap(), it can take anywhere from 100 ms to well over a second for the second processor to detect the changed memory content.

On the open() call to /dev/mem, I tried to specify O_RDRW, O_SYNC, and O_DIRECT, but the O_DIRECT caused the open to fail, so I removed O_DIRECT. I thought O_SYNC should have guaranteed that data was written to memory before the write() call returned, but I'm using a memory pointer instead of writing through write(). I don't see any parameters on the mmap() call that would seem to address caching issues.

I've tried calling fsync(fd) and fdatasync() after writing to memory, but that didn't change the behavior.

What DID seem to work was spawning this command immediately after the memory write: sync; echo 3 /proc/sys/vm/drop_caches

What is the simplest way to get writes via a mapped memory pointer to flush immediately?

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    Have you tried msync?
    – Duck
    Dec 23, 2013 at 20:19
  • 1
    Yes, I should have mentioned that I tried. It didn't seem to work, either, but I could have misused it. I wasn't sure which address to specify. The particular data I want to flush is not at the beginning of the mapped memory, so I wasn't sure whether I should use the original pointer address returned from mmap, or any page aligned address in mapped space.
    – edj
    Dec 23, 2013 at 21:08
  • In theory the page aligned address containing the beginning of the data you want flushed and the length but in practice I wonder if it matters if you just use the base address and entire length. My guess is the kernel just flips past pages it knows aren't dirty anyway. Maybe a kernel hacker could confirm or correct that. I am surprised that didn't work but then I don't really understand what you are doing on the other side.
    – Duck
    Dec 23, 2013 at 21:32
  • Digging into why msync isn't working, I realize that it is tossing an error. Depending on how I call it, I either get EINVAL or ENOMEM. The physical address I am mapping is 0x1FFFF000 with a size of 4096 bytes (the system page size). That is currently the only page I use. When I call msync(), should I be specifying the physical address (0x1FFFF000), or the virtual address that was returned from mmap()?
    – edj
    Dec 23, 2013 at 22:13
  • Based on web examples, I now believe that the virtual address is what I need to pass in. I only mapped one page with mmap(), so I am passing to msync() that returned virtual address, a size of 4096 (mapping size equals system page size), and a flag value of MS_SYNC (0x0004). Getting EINVAL returned in errno. What's wrong with my parameters?
    – edj
    Dec 23, 2013 at 22:42

1 Answer 1

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fsync, etc. all synchronize the memory mapped region to the backing block device (e.g., file).

They do not affect the CPU data cache. You will either need to use explicit cache clean calls to flush the CPU cache to DRAM or you will have to use the ACP port.

The ACP port is supposed to be cache coherent, but I've never gotten it to work.

Here's an answer for how to flush the cache. I believe that code needs to go in your device driver. We have that code packaged in a generic "portalmem" driver. It enables your application to allocate memory that you can share with your hardware, and it provides an ioctl for flushing the cache after your application writes to it.

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