In my C++ program (on Windows), I'm allocating a block of memory and can make sure it stays locked (unswapped and contiguous) in physical memory (i.e. using VirtualAllocEx(), MapUserPhysicalPages() etc).
No, you can't really ensure that it stays locked. What if your process crashes, or exits early? What if the user kills it? That memory will be reused for something else, and if your device is still doing DMA, that will eventually result in data loss/corruption or a bugcheck (BSOD).
MapUserPhysicalPages is part of Windows AWE (Address Windowing Extensions), which is for handling more than 4 GB of RAM on 32-bit versions of Windows Server. I don't think it was intended to be used to hack up user-mode DMA.
1. Is there any way I can translate the virtual address to the physical one within my program, in USER mode?
There are drivers that let you do this, but you cannot program DMA from user mode on Windows and still have a stable and secure system. Letting a process that runs as a limited user account read/write physical memory allows that process to own the system. If this is for a one-off system or a prototype, this is probably acceptable, but if you expect other people (particularly paying customers) to use your software and your device, you should write a driver.
2. If not, I can find out this virtual to physical mapping only in KERNEL mode. I guess it means I have to write a driver to do it...?
That is the recommended way to approach this problem.
Do you know of any readily available driver/DLL/API which I can use, that my application (program) will interface with to do the translation?
You can use an MDL (Memory Descriptor List) to lock down arbitrary memory, including memory buffers owned by a user-mode process, and translate its virtual addresses into physical addresses. You can also have Windows temporarily create an MDL for the buffer passed into a call to
DeviceIoControl by using
Note that contiguous pages in the virtual address space are almost never contiguous in the physical address space. Hopefully your device is designed to handle that.
3. In case I'll have to write the driver myself, how do I do this translation? which functions do I use? Is it mmGetPhysicalAddress()? How do I use it?
There's a lot more to writing a driver than just calling a few APIs. If you're going to write a driver, I would recommend reading as much relevant material as you can from MSDN and OSR. Also, look at the examples in the Windows Driver Kit.
4. Also, if I understand correctly, mmGetPhysicalAddress() returns the physical address of a virtual base address that is in the context of the calling process. But if the calling process is the driver, and I'm using my application to call the driver for that function, I'm changing contexts and I am no longer in the context of the app when the mmGetPhysicalAddress routine is called... so how do I translate the virtual address in the application (user-mode) memory space, not the driver?
Drivers are not processes. A driver can run in the context of any process, as well as various elevated contexts (interrupt handlers and DPCs).