Can we just define it to be the search with the probability limit of find a solution to be 1?
short answer: yes
longer answer: In order to claim a search algorithm [even stochastic] is "complete" you must show that if there is an answer, the algorithm will find an answer, in a finite time. This means, you must show that if there is an answer, there cannot be, with any probability, a non-finishing [or finishing with wrong answer] path. So, you need to show that a solution will be found with probability 1 [exactly! not approximately!], to show a stochastic algorithm is "complete"
For example, steepest ascent hill climbing with side walks [you can go to a neighbor with the same utility value] - is not complete, since you can enter an infinite loop and never find any solution. However, if you limit the number of side walks to a finite number