I have read his seminal paper, Self-stabilizing systems in spite of distributed control. However, I don't quite get how the self-stabilizing algorithm works. I am most interested in his, 'solution' of k-state machines. The density of the paper is quite intense and I can't make much sense of it. How does this algorithm work in plain English?
I can try to explain it in plain English...
First you should have a look at the link Jean-Francois Corbett wrote as a comment.
Same as the one on the seminar paper
Self Stabilizing system
In his paper Dijkstra defines a self stabilizing system as follow:
Consider a circle graph with N+1 nodes. (From 0 to N+1)
Each node can be in different states.
Each node can have different privilege. (for example xS = xR can be a privilege)
At each step if in one node a privilege is present we will apply a certain rule :
He defines a legitimate state to be a state with only one privilege present.
If you apply the different rules in Dijkstra's paper for the described system you will get a self-stabilizing system. (cf definition.)
i.e. from any state with n privilege presents (even with multiple privileges for one node) you will reach in a finite number of states a state with only one privilege present, and stay in legitimate states after this state. And you will be able to reach any legitimate state.
You can try yourself with a simple example.
Example for the 4 states solution
Let's take only a bottom node and a top node:
and here is a result for 3 nodes: bottom (0) middle (1) top (2): I start with 2 privileges (not legitimate state, then once I get into a legitimate state I stay in it):
Here is a small python code (I am not very good at python so it's may be ugly) to test the 4 states methods with a system of n nodes, it stops when you find all the legitimate states:
Here's a battle tested self-stabilization library:
For Dijkstra's self-stabilizing ring algorithm, you can partition the actions of each non-distinguishable process into closure actions and convergence actions. The action of the distinguished process P0 are closure actions. The convergence actions do not participate into non-progress cycles. As to the closure actions including those of P0, they can only form an infinite loop of a single privilege circulating. If it happens that you have more than one privilege, there is no way that the closure actions keep them circulating. In other words, the number of privileges keep decreasing as they pass through P0: the distinguished process.
The following two publications are particularly interesting, besides Dijkstra's proof in 1986: 1- http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.70.976&rep=rep1&type=pdf 2- http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.27.4320&rep=rep1&type=pdf