think about how you would do this in C for example, then translate that to asm.

Using 32 bit variables to do a single bit shift left for example, assuming ra is the upper 32 bits and rb the lower

```
if(rb&0x80000000) { ra<<=1; ra|=1; rb<<=1 }
else { ra<<=1; rb<<=1; }
```

For a rotate you might do something along these lines

```
if(rb&0x80000000)
{
if(ra&0x80000000) { ra<<=1; ra|=1; rb<<=1: rb|=1; }
else { ra<<=1; ra|=1; rb<<=1; }
}
else
{
if(ra&0x80000000) { ra<<=1; rb<<=1: rb|=1; }
else { ra<<=1; rb<<=1; }
}
```

You can then wrap a loop around one of those and do it N times.

Or say an 8 bit shift left

```
ra=(ra<<8)|(rb>>(32-8));
rb<<=8;
```

Or say an N bit shift left

```
ra=(ra<<=n)|(rb>>(32-n));
rb<<=n;
```

Or an n bit rotate left (which is the same as a 32-n bit rotate right)(there is a reason why some processors only have a rotate right and the left is virtual or vice versa).

```
temp=ra>>(32-n);
ra=(ra<<=n)|(rb>>(32-n));
rb=(rb<<<=n)|temp;
```

Then look at the instruction set and see what is available and matches what you are doing.

In short to shift bits you need to take the bit on one side and put it in the next bit. If you align yourself on some boundary like a variable or register there is no difference you take the bit from one side and shift it into the other, it may take more code as the instruction set or programming language doesnt support it directly doesnt mean you cant do it. Just like you can perform a 2048 bit multiply on an 8 bit processor with no multiply instruction, just takes more code than other processors, but it is very doable.