There is one (relatively) simple way of achieving some of this, and that's called "position independent code". See your compiler documentation for this.
Meaning you can compile some sources into a binary which will execute no matter where in the address space you place it. If you have such a piece of x86 binary code in a file and mmap() it (or the windows equivalent) it is possible to invoke it from both Linux and Windows.
Limitations already mentioned are of course still present - namely, the binary code must restrict itself to using a calling convention that's identical on both platforms / can be represented on both platforms (for 32bit x86, that'd be passing args on the stack and returning values in EAX), and of course the code must be fully self-contained - no DLL function calls as resolving these is system dependent, no system calls either.
- You need position-independent code
- You must create self-contained code without any external dependencies
- You must extract the machine code from the object file.
Then mmap() that file, initialize a function pointer, and (*myblob)(someArgs) may do.
If you're using gcc, the "-ffreestanding -nostdinc -fPIC" options should give you most of what you want regarding the first two, then use objdump to extract the binary blob from the ELF object file afterwards.