Servers and threading models

Question

I am troubled with the following concept: Most books/docs describe how robust servers are multithreaded and that the most common approach is to start a new thread to serve each new client. E.g. a thread is dedicated to each new connection. But how is this actually implemented in big systems? If we have a server that accepts requests from 100000 clients, it has started 100000 threads? Is this realistic? Aren't there limits on how many threads can run in a server? Additionally the overhead of context switching and synchronization, doesn't it degrade performance? Is it implemented as a mix of queues and threads? In this case is the number of queues fixed? Can anybody enlighten me on this, and perhaps give me a good reference that describes these?

Thanks!

Answer 1

The common method is to use thread pools. A thread pool is a collection of already created threads. When a new request gets to the server it is assigned a spare thread from the pool. When the request is handled, the thread is returned to the pool.

The number of threads in a pool is configured depending on the characteristics of the application. For example, if you have an application that is CPU bound you will not want too many threads since context switches will decrease performance. On the other hand, if you have a DB or IO bound application you want more threads since much time is spent waiting. Hence, more threads will utilize the CPU better.

Google "thread pools" and you will for sure find much to read about the concept.

Answer 2

Also Read up on the SEDA pattern link , link

Answer 3

In addition to the answers above I should notice, that really high-performance servers with many incoming connections attempt not to spawn a thread per each connection but use IO Completion Ports, select() and other asynchronous techniques for working with multiple sockets in one thread. And of course special attention must be paid to ensure that problems with one request or one socket won't block other sockets in the same thread.

Also thread management consumes CPU time, so threads should not be spawned for each connection or each client request.

Answer 4

In most systems a thread pool is used. This is a pool of available threads that wait for incoming requests. The number of threads can grow to a configured maximum number, depending on the number of simultaneous requests that come in and the characteristics of the application.

If a requests arrives, an unoccupied thread is requested from the thread pool. This thread is then dedicated to handling the request until the request finishes. When that happens, the thread is returned to the thread pool to handle another request.

Since there is only a limited number of threads, in most server systems one should attempt to make the lifetime of requests as short as possible. The less time a request needs to execute, the sooner a thread can be reused for a new request.

If requests come in while all threads are occupied, most servers implement a queueing mechanism for requests. Of course the size of the queue is also limited, so when more requests arrive than can be queued, new requests will be denied.

One other reason for having a thread pool instead of starting threads for each request is that starting a new thread is an expensive operation. It's better to have a number of threads started beforehand and reusing them then starting new threads all the time.

Answer 5

To get network servers to handle lots of concurrent connections there are several approaches (mostly divided up in "one thread per connection" and "several connections per thread" categories), take a look at the C10K page, which is a great resource on this topic, discussing and comparing a lot of approaches and linking to further resources on them.

Answer 6

Creating 10k threads is not likely to be efficient in most cases, but can be done and would work.

If you needed to serve 10k clients at once, doing so on a single machine would be unlikely but possible.

Depending on the client side implementation, it may be that the 10,000 clients do not need to maintain an open TCP connection - depending on the purpose, the protocol design can greatly improve the efficiency of implementation.

I think the appropriate solution for high scale systems is probably extremely domain-specific, and if you wanted a suggestion you'd have to explain more about your problem domain.