Scaling can be done in various ways, but they all boil down to either removing or creating pixels from the image. Since images are essentially matrices (resized as arrays) of pixel values, you can look at scaling up images as enlarging that array and filling in the blanks and scaling down images as shrinking the array by leaving values out.
By the way, if you don't have your images as arrays yet you can use the same method. First draw the image on the canvas and then use the data attribute of the current ImageData object to retrieve the image in a Uint8ClampedArray.
Regarding scaling methods to upscale an image, there are basically two components that you need to implement. The first one is to divide the known pixels (i.e. the pixels from the image you are scaling) over the larger new array that you have created. An obvious way is to evenly divide all the pixels over the space. For example, if you are making the width of an image twice as wide, you want simply skip a position after each pixel leaving blanks in between.
The second component is then to fill in those blanks, which can be slightly less straightforward. However, there are several that are fairly easy. (On the other hand, if you have some knowledge of Computer Vision or Image Processing you might want to look at some more advanced methods.) An easy and somewhat obvious method is to interpolate each unknown pixel position using its nearest neighbor (i.e. the closest pixel value that is known) by duplicate the known pixel's color. This does typically result in the effect of bigger pixels (larger blocks of the same color) when you scale the images too much. Instead of duplicating the color of the closest pixel, you can also take the average of several known pixels that are nearby. Possibly even combined with weights were you make closer pixels count more in the average than pixels that are farther away. Other methods include blurring the image using Gaussians. If you want to find out what method is the best for your application, look at some pages about image interpolation. Of course, remember that scaling up always means filling in stuff that isn't really there. Which will always look bad if you do it too much.
As far as scaling down is concerned, one typically just removes pixels by transferring only a selection of pixels from the current array to the smaller array. For example if you would want to make the with of an image twice as small, you roughly iterate through the current array with steps of 2 (This depends a bit on the dimensions of the image, even or odd, and the representation that you are using). There are methods that do this even better by removing those pixels that could be missed the most. But I don't know enough about them.
And depending on how advanced your programming skills are and the speed at which you need to scale you can always try to do this on the GPU instead of on the CPU using WebGL. But that does seem a slight overkill in this case. Also, you can try to chop your image in several pieces and try to scale the separate parts on several Web Workers making it multi-threaded. Although it is certainly not trivial to combine the parts later. Perhaps multi-threaded makes more sense when you have a lot of images that need to be scaled on the client side.
It all really depends on your application, the images and your own skills and desires.
Anyway, I hope that roughly answers your question.