I'm the person who made the tutorials in 2. There's a lot going on here, so I'll try to explain a bit.
I use a hidden canvas for selection simply because it is easy to learn and will work for ANY kind of object (text, complex paths, rectangles, semi-transparent images). In the real diagramming library that I am writing, I don't do anything of the sort, instead I use a lot of math to determine selection. The hidden-canvas method is fine for less than 1000 objects, but eventually performance starts to suffer.
Lucidchart actually uses more than one canvas per object. And it doesn't just have them in memory, they are all there the DOM. This is an organizational choice on their part, a pretty weird one in my opinion. SVG might have made their work a lot easier if thats what they are going to do, as if seems they are doing a lot of footwork just to be able to emulate how SVG works a bit. There aren't too many good reasons to have so many canvases in the DOM if you can avoid it.
It seems to me that the advantage of them doing it that way is that if they have 10,000 objects, when you click, you only have to look at the one (small) canvas that is clicked for selection testing, instead of the entire canvas. So they did it to make their selection code a little shorter. I'd much rather only have one canvas in the DOM; their way seems needlessly messy. The point of canvas is to have a fast rendering surface instead of a thousand divs representing objects. But they just made a thousand canvases.
Anyway, to answer your question, the "easiest" way to achieve interactive network diagrams like lucidchart is to either use a library or use SVG (or an SVG library). Unfortunately there aren't too many yet. Getting all the functionality yourself in Canvas is hard but certainly doable, and will afford you better performance than SVG, especially if you plan on having more than 5,000 objects in your diagrams. Starting with EaselJS for now isn't too bad of an idea, though you'll probably find yourself modifying more and more of it as you get deeper into your project.
I am making one such interactive canvas diagramming library for Northwoods Software, but it won't be done for a few more months.
To answer the question that is sort-of in your title: The fastest method of doing interactiveness such as hit-testing is using math. Any high-performance canvas library with the features to support a lot of different types of objects will end up implementing functions like getNearestIntersectionPoint, getIntersectionsOnRect, pathContainsPoint, and so on.
As for your side question, it is my opinion that creating a text field on top of the canvas when a user wants to change text and then destroying it when the user is done entering text is the most intuitive-feeling way to get text input. Of course you need to make sure the field is positioned correctly over the text you are editing and that the font and font sizes are the same for a consistent feel.
Best of luck with your project. Let me know how it goes.