This is a really huge topic, with answers from 3 lines of code to entire research magazines.
I will outline the most common such techniques and their results.
One of the simplest & fastest methods. Proposed decades ago as a means to find picture simmilarities. The idea is that a forest will have a lot of green, and a human face a lot of pink, or whatever. So, if you compare two pictures with forests, you'll get some simmilarity between histograms, because you have a lot of green in both.
Downside: it is too simplistic. A banana and a beach will look the same, as both are yellow.
OpenCV method: compareHist()
A good example here matchTemplate finding good match. It convolves the search image with the one being search into. It is usually used to find smaller image parts in a bigger one.
Downsides: It only returns good results with identical images, same size & orientation.
OpenCV method: matchTemplate()
Considered one of the most efficient ways to do image search. A number of features are extracted from an image, in a way that guarantees the same features will be recognized again even it is rotated/scaled/skewed. The features extracted this way can be matched against other image feature sets. Another image that has a high proportion of the features in the first one is most probably depicting the same object/scene. It can be used to find the relative difference in shooting angle between pics, or the amount of overlapping.
There are a number of OpenCV tutorials/samples on this, and a nice video here. A whole OpenCV module (features2d) is dedicated to it.
Downsides: It may be slow. It is not perfect.