Not sure if I am fully understanding your situation, here, but I'll have a stab at it anyway.
Years ago I designed an application for the servicing of ADSL activation requests for a large Telco operator in my country.
We received "activation requests" from an upstream application, and our job was to operate a series of configuration steps which had to be done on different devices, using different protocols, could fail, might have to be retracted (and of course, implement the cancellation of one or more steps in case the customer receded).
We opted for a solution based on a "state machine" of sort. Each request was represented (in an Oracle DB) as a header record which summarized the status (from "new" to "completed", with various intermediate steps) and a series of child records, each one representing one of the N-steps required to complete the configuration.
We had scheduled batches for each kind of step, basically selecting the records of the appropriate operation-type, and attempting to resolve each one (this allowed us to group the operation according to protocol, e.g. snmp or telnet, and also to define that some kind of operations should run only during night, or outside of peak office hours and so on.
We also scheduled a "meta-batch" which would periodically check every open "header" record, check if all the connected step-records were in "finished" state, and update the header status accordingly.
It scaled well enough, and allowed us to model different steps with a minimum of hassle. Full or partial "rollback" was easy, too - because for each step we had a concrete record showing if it had completed or not.
If I had to work on a similar problem today, I'd favour a state-machine based approach.