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So upon mapping a memory space with MmMapIoSpace, I noticed that past a certain point, the data was just being discarded when written to. No errors, breakpoints, or even bugchecks were thrown. Everything worked as normal, just without any adverse effects.

I decided to do a write/read test (the driver would write 1's to every byte for the length of the intended size) and the reader (userland) mode would read and report where the 1's ended.

The number it came up with was 3208, which is a seemingly nice, round number (/8=401, /256=12, etc.)

What's up with this? How come I can't map the full buffer space?

EDIT And in 64-bit it drops to 2492.

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  • MmMapIoSpace is intended for accessing memory-mapped I/O devices. How the memory behaves presumably depends on the hardware device in question. Conversely, if you're pointing it at physical RAM rather than an I/O device, you're using it in an unsupported way and the behaviour is presumably undefined. If this doesn't answer your question, you need to provide us with more context: for example, what sort of device is your device driver managing? – Harry Johnston Jun 15 '12 at 1:15
  • It's mapping memory from to the user-land driver – Qix - MONICA WAS MISTREATED Jun 15 '12 at 1:18
  • Wow I just realized I made a derp comment. It maps User-land memory to a driver-writeable buffer. – Qix - MONICA WAS MISTREATED Jun 15 '12 at 2:28
  • Based on the documentation for MmMapIoSpace, I'm pretty sure it doesn't support what you're trying to do. Did you want your driver to access a memory buffer allocated by a user-space process, or were you trying to give a user-space process access to a buffer allocated by the driver? – Harry Johnston Jun 15 '12 at 3:29
  • Is PhysicalAddress (as passed to MmMapIoSpace) page-aligned? I don't see how the mapping could stop working anywhere but at the end of a page, so I'm guessing that the 3208/2492 you're seeing is determined entirely by the offset of PhysicalAddress within its page. (Pages are 4096 bytes on x86 and x64 systems, or 8192 on IA64.) – Harry Johnston Jun 15 '12 at 3:57
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I'm no expert, but I don't see how MmMapIoSpace can be relied upon to do what you're asking it to, because there's no guarantee that the user-space buffer is contiguous in physical memory.

Instead, I think you should be using IoAllocateMdl and MmProbeAndLockPages to lock down the user buffer and then MmGetSystemAddressForMdlSafe to map it into the system address space. This process is described here.

As previous stated, I think that the point at which the mapping is failing (3208/2492 bytes into the buffer) is probably just the end of the page, but that's easy enough for you to verify: get the user-space application to report the (virtual) address of the first byte that didn't get written rather than the offset, and check whether it is a multiple of 4096 or not.

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  • Yep it is (40400/9). Interesting! I'll play around with your method to see if I can't do such a thing. – Qix - MONICA WAS MISTREATED Jun 16 '12 at 0:48
  • Not to throw a spanner in the works, but 40400 isn't a multiple of 4096. (Note that the Windows calculator, when in programming mode, truncates the fractional part when you do division.) – Harry Johnston Jun 16 '12 at 3:29
  • Nailed it! Worked perfectly! Thank you so much! – Qix - MONICA WAS MISTREATED Jun 16 '12 at 14:23

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