The concept of user-written code completely disabling interrupts pretty much goes against some fundamental design assumptions of Windows.
For starters, you can't disable interrupts from a user-mode application. (It is a privileged instruction.)
In kernel mode, you can use IRQL to prevent most premption (but not all). This is the "standard" way to perform non-preemptible hardware operations under Windows. I suspect this is what you are really looking for. If you can get your code to run within the confines of a higher-level IRQL, you should be ok. See this link for info on IRQL.
Keep in mind that this higher you run, the more things are going to break. Expect Performance Counters to become inaccurate, device buffers to overflow, etc.
As a back door, you could embed raw assembly CLI/STI instructions into a kernel driver, but this will probably break lots of things, unless your code disables interrupts for a very brief period of time. If not, expect a blue screen. Additionally, I believe the AMD64 compiler will fight against you trying to do inline Assembly.
I highly reccomend that you back off from your atomicity requirement.
Some other options:
- Boot to your own environment to run your tests (similar to Memtest86).
- Consider using a parent RTOS kernel. There are off the-shelf "Windows RTOS" solutions that run Windows as a subprocess of a parent RTOS. Existing Windows applications and drivers run fine, and time-critical/atomic tasks are written for the RTOS. The most popular player in the space is RTX from IntervalZero.
Also, there is a dirty little secret about x86 you should know: Almost nothing you write on an x86 platform is guaranteed to be atomic, even if you write your RTOS in assembly. There are System Management Interrupts that can interrupt your code, even if you do a CLI/STI.