Nine digits to handle 1,000,000 IDs gives us three digits to play with (we need the other six for the 0-999999 for the ID).
I assume you have a multi-server setup. Assign each server a three-digit server ID, and then you can allocate unique ID values within each server without worrying about overlap between them. It can just be an ever-increasing value in memory, except to survive JVM restarts, we need to echo the most recently allocated value to disk (well, to anywhere you want to store it — local disk, memcache, whatever).
To ensure you don't hit the overhead of file/whatever I/O on each request, you allocate the IDs in blocks, echoing the endpoint of the block back to the storage.
So it ends up being:
- Give each server an ID
- Have storage on the server which stores the last allocated value for the day (a file, for instance)
- Have the ID allocator work in blocks (10 IDs at a time, 100, whatever)
- To allocate a block:
- Read the file, write back a number increased by your blocksize
- Use IDs from the block
- The ID would be , e.g. 12000000027 for the 28th ID allocated by server #12
- When the day changes (e.g., midnight), throw away your current block and allocate a new one for the new day
In pseudocode:
class IDAllocator {
Storage storage;
int nextId;
int idCount;
int blockSize;
long lastIdTime;
/**
* Creates an IDAllocator with the given server ID, backing storage,
* and block size.
*
* @param serverId the ID of the server (e.g., 12)
* @param s the backing storage to use
* @param size the block size to use
* @throws SomeException if something goes wrong
*/
IDAllocator(int serverId, Storage s, int size)
throws SomeException {
// Remember our info
this.serverId = serverId * 1000000; // Add a million to make life easy
this.storage = s;
this.nextId = 0;
this.idCount = 0;
this.blockSize = bs;
this.lastIdTime = this.getDayMilliseconds();
// Get the first block. If you like and depending on
// what container this code is running in, you could
// spin this out to a separate thread.
this.getBlock();
}
public synchronized int getNextId()
throws SomeException {
int id;
// If we're out of IDs, or if the day has changed, get a new block
if (idCount == 0 || this.lastIdTime < this.getDayMilliseconds()) {
this.getBlock();
}
// Alloc from the block
id = this.nextId;
--this.idCount;
++this.nextId;
// If you wanted (and depending on what container this
// code is running in), you could proactively retrieve
// the next block here if you were getting low...
// Return the ID
return id + this.serverId;
}
protected long getDayMilliseconds() {
return System.currentTimeMillis() % 86400000;
}
protected void getBlock()
throws SomeException {
int id;
synchronized (this) {
synchronized (this.storage.syncRoot()) {
id = this.storage.readIntFromStorage();
this.storage.writeIntToStroage(id + blocksize);
}
this.nextId = id;
this.idCount = blocksize;
}
}
}
...but again, that's pseudocode, and you might want to throw some proactive stuff in there so you never block on I/O waiting for an ID when you need one.
The above is written assuming you already have some kind of application-wide singleton, and the IDAllocator instance would just be a data member in that single instance. If not, you could readily make the above a singleton instead, by giving it the classic getInstance method and having it read its configuration from the environment rather than receiving it as arguments to the constructor.
