I'm writing a highly concurrent application, needing access to a large fine-grained set of shared resources. I'm currently writing a global lock manager to organize this. I'm wondering if I can piggyback off the standard
ConcurrentHashMap and use that to handle the locking? I'm thinking of a system like the following:
- A single global
ConcurrentHashMapobject contains a mapping between the unique string id of the resource, and a l̶o̶c̶k̶ ̶p̶r̶o̶t̶e̶c̶t̶i̶n̶g̶ ̶t̶h̶a̶t̶ ̶r̶e̶s̶o̶u̶r̶c̶e̶ unique id of the thread using the resource
- Tune the concurrency factor to reflect the need for a high level of concurrency
- Locks are acquired using the atomic conditional
replace(K key, V oldValue, V newValue)method in the hashmap
- To prevent lock contention when locking multiple resources, locks must be acquired in alphabetical order
Are there any major issues with the setup? How will the performance be?
I know this is probably going to be much slower and more memory-heavy than a properly written locking system, but I'd rather not spend days trying to write my own, especially given that I probably won't be able to match Java's professionally-written concurrency code implementing the map.
A̶l̶s̶o̶,̶ ̶I̶'̶v̶e̶ ̶n̶e̶v̶e̶r̶ ̶u̶s̶e̶d̶ ̶
̶C̶o̶n̶c̶u̶r̶r̶e̶n̶t̶H̶a̶s̶h̶M̶a̶p̶̶ ̶i̶n̶ ̶a̶ ̶h̶i̶g̶h̶-̶l̶o̶a̶d̶ ̶s̶i̶t̶u̶a̶t̶i̶o̶n̶,̶ ̶s̶o̶ ̶I̶'̶m̶ ̶i̶n̶t̶e̶r̶e̶s̶t̶e̶d̶ ̶i̶n̶ ̶t̶h̶e̶ ̶f̶o̶l̶l̶o̶w̶i̶n̶g̶:̶ ̶
̶ ̶-̶ ̶H̶o̶w̶ ̶w̶e̶l̶l̶ ̶w̶i̶l̶l̶ ̶t̶h̶i̶s̶ ̶s̶c̶a̶l̶e̶ ̶t̶o̶ ̶l̶a̶r̶g̶e̶ ̶n̶u̶m̶b̶e̶r̶s̶ ̶o̶f̶ ̶e̶l̶e̶m̶e̶n̶t̶s̶?̶ ̶(̶I̶'̶m̶ ̶l̶o̶o̶k̶i̶n̶g̶ ̶a̶t̶ ̶~̶1̶,̶0̶0̶0̶,̶0̶0̶0̶ ̶b̶e̶i̶n̶g̶ ̶a̶ ̶g̶o̶o̶d̶ ̶c̶a̶p̶.̶ ̶I̶f̶ ̶I̶ ̶r̶e̶a̶c̶h̶ ̶b̶e̶y̶o̶n̶d̶ ̶t̶h̶a̶t̶ ̶I̶'̶d̶ ̶b̶e̶ ̶w̶i̶l̶l̶i̶n̶g̶ ̶t̶o̶ ̶r̶e̶w̶r̶i̶t̶e̶ ̶t̶h̶i̶s̶ ̶m̶o̶r̶e̶ ̶e̶f̶f̶i̶c̶i̶e̶n̶t̶l̶y̶)̶
̶ ̶-̶ ̶T̶h̶e̶ ̶d̶o̶c̶u̶m̶e̶n̶t̶a̶t̶i̶o̶n̶ ̶s̶t̶a̶t̶e̶s̶ ̶t̶h̶a̶t̶ ̶r̶e̶-̶s̶i̶z̶i̶n̶g̶ ̶i̶s̶ ̶"̶r̶e̶l̶a̶t̶i̶v̶e̶l̶y̶"̶ ̶s̶l̶o̶w̶.̶ ̶J̶u̶s̶t̶ ̶h̶o̶w̶ ̶s̶l̶o̶w̶ ̶i̶s̶ ̶i̶t̶?̶ ̶I̶'̶l̶l̶ ̶p̶r̶o̶b̶a̶b̶l̶y̶ ̶h̶a̶v̶e̶ ̶t̶o̶ ̶r̶e̶-̶s̶i̶z̶e̶ ̶t̶h̶e̶ ̶m̶a̶p̶ ̶o̶n̶c̶e̶ ̶e̶v̶e̶r̶y̶ ̶m̶i̶n̶u̶t̶e̶ ̶o̶r̶ ̶s̶o̶.̶ ̶I̶s̶ ̶t̶h̶i̶s̶ ̶g̶o̶i̶n̶g̶ ̶t̶o̶ ̶b̶e̶ ̶p̶r̶o̶b̶l̶e̶m̶a̶t̶i̶c̶ ̶w̶i̶t̶h̶ ̶t̶h̶e̶ ̶s̶i̶z̶e̶ ̶o̶f̶ ̶m̶a̶p̶ ̶I̶'̶m̶ ̶l̶o̶o̶k̶i̶n̶g̶ ̶a̶t̶?̶
Edit: Thanks Holger for pointing out that HashMaps shouldn't have that big of an issue with scaling
Also, is there is a better/more standard method out there? I can't find any places where a system like this is used, so I'm guessing that either I'm not seeing a major flaw, or theres something else.
The application I'm writing is a network service, handling a variable number of requests. I'm using the Grizzly project to balance the requests among multiple threads. Each request uses a small number of the shared resources (~30), so in general, I do not expect a large great deal of contention. The requests usually finish working with the resources in under 500ms. Thus, I'd be fine with a bit of blocking/continuous polling, as the requests aren't extremely time-sensitive and contention should be minimal.
In general, seeing that a proper solution would be quite similar to how
ConcurrentHashMap works behind the scenes, I'm wondering if I can safely use that as a shortcut instead of writing/debugging/testing my own version.