A late answer to this question, but I can add the following points if you haven't discovered them in the mean time:
Maybe explain what EFI means to OS development
Actually, not a lot. Well maybe a little. Okay, let's explain. UEFI provides the firmware environment for a pre-boot stage. It also provides some runtime services to the operating system, however, it is expected the operating system, not the UEFI firmware, will eventually drive the system - these services allow you perform various boot-configuration related activity - example.
The upside is that if you are prepared to use a bootloader that conforms to say multiboot 2 you don't actually need to know anything about UEFI - the bootloader will load you up according to the multiboot spec, then call
ExitBootServices() which in UEFI terms destroys the firmware environment.
It is possible to produce a Linux kernel which has an EFI stub and therefore boots "without" a boot loader - this blog shows you how. You could do this for your kernel - you simply need to produce a PE/COFF kernel matching the firmware bitness.
and maybe tell me what testing environments (preferably virtual) I can us
If you can afford VMWare Workstation, this will help you massively. As well as containing a gdb stub such that you can debug any part of anything, you can also edit the virtual machine definition files (*.vmx) to contain
and voila, VMWare will boot a fully working UEFI environment. Works with Linux and Windows.
Various posts around the internet mention QEMU setups and of course VirtualBox. I have never personally successfully booted any existing system on the VirtualBox EFI platform, and I haven't tried QEMU, although I believe it and the various other emulators out there probably work.
Also should I invest time looking into ARM assembly?
That depends on your objectives. On the question of assembly, I think you should know it to write an OS. I don't think it matters for which platform you write - in fact, I think writing for multiple will make you more appreciative of the differences between machines.
Generally, however, I wouldn't attempt to write an entire OS in assembly. The principle reason for this is time - I assume this is a hobby project, so getting some reward for your extensive effort is going to be much more fun than slogging it out trying to debug assembly especially one for which you are not familiar. You can always, as you become more proficient, replace choice bits with assembler, especially as you have enough of the rest of the code to test it with.