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I've been struggling with this one, would really appreciate some help. I want to use the internal SRAM (stepping stone - not used after boot) of my At91sam9g45 to speed up some intensive computations and am having trouble meeting all the following conditions:

  1. Memory is accessible from user space. This was easy using the user space mmap() and then kernel remap_pfn_range(). Using the pointer returned, my user space programs can read/write to the SRAM.

  2. Using the kernel DMA API call dma_async_memcpy_buf_to_buf() to do a memcpy using DMA. Within my basic driver, I want to call this operation to copy data from DDR( allocated with kmalloc()) into the SRAM buffer.

So my problem is that I have the user space and physical addresses, but no kernel-space DMA API friendly mapping.

I've tried using ioremap and using the fixed virutal address provided to iotable_init(). None of these seems to result in a kernel virtual address that can be used with something like virt_to_bus (which works for the kmalloc addresses and i think is used within the DMA API).

There's way around and thats just triggering the DMA manually using the physical addresses, but I'd like to try and figure this out. I've been reading through LDD3 and googling, but i can't see any examples of using non-kmalloc memory for the DMA API (except for PCI buses).

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Can't you utilize sendfile or splice? –  auselen Sep 16 '12 at 7:29
I imagine that some of that SRAM space is being used for the processor exception table and what not. I'm not sure of all the details, but the kernel may really dislike you exposing it in this way. You also said "user space programs"... I don't know how you plan on having more than one program accessing the space at a time, but it needs to be carefully thought out. –  jszakmeister Sep 17 '12 at 23:02
Thanks for the replies. The SRAM isn't being used (I've verified this - only used at boottime). The reason for using it is that SRAM I/O operates at near the CPU speed rather than 133MHz of system ram. For doing lookup table calculations (FIR filter) this works much quicker. There will be only one thread using this. The processor can also yield while waiting for the DMA to finish and let other processes run. –  user1675013 Sep 18 '12 at 6:13
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1 Answer

The plat-imx directory has iram_alloc.c. This is a similar concept on another ARM soc. Take a look there for an allocation API.

At least in Linux 3.7, there appears to be a setup for this sram already. Take a look at the AT91SAM9G45 Machine File for the latest Linux. at91_init_sram() is in setup.c. You can alter the desc->type to change the MMU type. The MMU can mark it as uncacheable, which will make it DMA safe (I think MT_DEVICE is already this). If you aren't using the latest pristine kernel, I suggest you grab a git copy and take a look at the history of some of the files involved. I think what you want is already implemented. You just need to back port it or use it.

The only cavet is that the DMA device must have the SRAM accessible. I don't remember that much about the atmel chip set (and I never used this particular one), but on the IMX different DMA peripherals have different levels of access depending on the BUS hierarchy. That is not Linux based, but hardware dependent.

I think maybe you mis-understand the DMA API. This is where you have generic ram and you want a particular section to be mapped as DMA friendly. Basically, this means special MMU mappings to alter the CPU caching. You can also get around this by explicit flushing. It really depends on your usage. LCD display mapped memory is different than Ethernet and USB buffers, etc. For this SRAM, if it is mapped as in the machine file, there is no issue. The SRAM should alredy be non-cacheable (and non-bufferable). This SRAM is special and not available to kmalloc(), etc. Just like you don't use a set of memory mapped registers as part of the general memory pool.

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