HOW I WISH I HAD PHRASED MY QUESTION TO BEGIN WITH
Take a table with 26 keys, a-z and let them have integer values. Create a process, Ouch, that does two things over and over again
- In one transaction, write random values for a, b, and c such that those values always sum to 10
- In another transaction, read the values for a, b and c and complain if their values do not sum to 10
If you spin-up even a few of these processes you will see that very quickly a, b and c are in a state where their values do not sum to 10. I believe there is no way to ask mnesia to "lock these 3 records before starting the writes (or reads)", one can only have mnesia lock the records as it gets to them (so to speak) which allows for the set of records' values to violate my "must sum to 10" constraint.
If I am right, solutions to this problem include
- lock the entire table before writing (or reading) the set of 3 records -- I hate to lock whole table for 3 recs,
- Create a process that keeps track of who is reading or writing which keys and protects bulk operations from anyone else writing or reading until the operation is completed. Of course I would have to make sure that all processes made use of this... crap, I guess this means writing my own AccessMod as the fourth parameter to activity/4 which seems like a non-trivial exercise
- Some other thing that I am not smart enough to figure out.
Ok, I'm an ambitious Erlang newbee, so sorry if this is a dumb question, but
I am building an application-specific, in-memory distributed cache and I need to be able to write sets of Key, Value pairs in one transaction and also retrieve sets of values in one transaction. In other words I need to 1) Write 40 key,value pairs into the cache and ensure that no one else can read or write any of these 40 keys during this multi-key write operation; and, 2) Read 40 keys in one operation and get back 40 values knowing that all 40 values have been unchanged from the moment that this read operation started until it ended.
The only way I can think of doing this is to lock the entire table at the beginning of the fetch_keylist([ListOfKeys]) or at the beginning of the write_keylist([KeyValuePairs], but I don't want to do this because I have many processes simultaneously doing their own multi_key reads and writes and I don't want to lock the entire table any time any process needs to read/write a relatively small subset of records.
Trying to be more clear: I do not think this is just about using vanilla transactions
I think I am asking a more subtle question than this. Imagine that I have a process that, within a transaction, iterates through 10 records, locking them as it goes. Now imagine this process starts but before it iterates to the 3rd record ANOTHER process updates the 3rd record. This will be just fine as far as transactions go because the first process hadn't locked the 3rd record (yet) and the OTHER process modified it and released it before the first process got to it. What I want is to be guaranteed that once my first process starts that no other process can touch the 10 records until the first process is done with them.
PROBLEM SOLVED - I'M AN IDIOT... I guess... Thank you all for your patients, especially Hynek -Pichi- Vychodil! I prepared my test code to show the problem, and I could in fact reproduce the problem. I then simplified the code for readability and the problem went away. I was not able to again reproduce the problem. This is both embarrassing and mysterious to me since I had this problem for days. Also mnesia never complained that I was executing operations outside of a transaction and I have no dirty transactions anywhere in my code, I have no idea how I was able to introduce this bug into my code!
I have pounded the notion of Isolation into my head and will not doubt that it exists again.
Thanks for the education.
Actually, turns out the problem was using try/catch around mnesia operations within a transaction. See here for more.