You have to understand how a bitmap is represented in memory, it's row wise. You can choose it to be upside down or not. So for example you start at the top-left position then you get all the pixels at the first row (x=0..cx, y=0) until you reach the width of the bitmap (cx). Then you might have a stride (some padding bytes) and then the next row of pixels (x=0..cx, y=1) starts.
Keeping that in mind the transformations are trivial: for 90 and 270 degrees you need to copy each pixel individually. For 180 degrees you can 'flip' the bitmap using
memcpy for each row. You can also use
BitBlt with a negative height for that.
The access to the bits is provided directly by using the pointer you have received via
CreateDIBSection or using
GetDIBits. Remember to call
GdiFlush before using the bits if you have drawn to these bitmaps as being memory DCs.