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This is a question about message passing. This relates specifically to an in-house application written in C#. But it has a home grown "message passing" system resembling erlang.

Okay, we hope that it will be possible to learn from erlang folks or documentation to find an elegant solution to a couple of message passing challenges. But alas, after reading erlang documentation online and forums these topics don't seem to be addressed--that we can find.

So the question is: In erlang, when does the queue to send messages to a process get full? And does erlang handle the queue full situation? Or are the queues for message passing in erlang boundless--that is only limited by system memory?

Well in our system it involves processing a stream of financial data with potentially billions of tuples of information being read from disk, each tuple of financial information is called a "tick" in the financial world.

So it was necessary to set a limit to the queue size of each "process" in our system. We arbitrarily selected 1000 items max in each queue. Now those queues quickly get filled entirely by the tick messages.

The problem is that the processes also need to send other types of messages to each other besides just ticks but the ticks fill up the queues preventing any other types of message from getting passed.

As a "band aid" solution (which is messy) allow multiple queues per process for each message type. So a process will have a tick queue, and a command queue, and fill queue, and so on.

But erlang seems so much cleaner by having a single queue to each "process" that carries different message types. But again, how does it deal with the the queue getting hogged by a flood of only one of the message types?

So perhaps this is a question about the internals of erlang. Does erlang internally have separate limits on message types in a queue? Or does it internally have a separate queue per type of message?

In any case, how are sending processes aware when a queue is too full to receive certain types of message? Does the send fail? Does that mean error handling becomes necessary in erlang for inability to send?

In our system, it tracks when queues get full and then prevents any processes from running which will attempt to add to a full queue until that queue has more space. This avoids messy error handling logic since processes, once invoked, are guaranteed to have room to send one message.

But again, if we put multiple types of messages on that same queue. Other message types will be blocked that must get through.

It has become my perhaps mistaken impression that erlang wasn't designed to handle this situation so perhaps it doesn't address the problem of a queues getting filled with a flood of a single message type.

But we hope someone know how to answer this point to good reference information or book that covers this specific scenario.

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Just was reading about the Message Passing Interface standard. Interestingly it defines that the sender does the buffering. That implies multiple inbound queues to a process. –  Wayne Jan 3 '12 at 3:41
Even at Safari books online, the main ones never say how messages are passed on erlang. It's clear they don't used "shared memory". So how do they communicate? is it via loopback tcp/ip when on the same machine? –  Wayne Jan 3 '12 at 4:45

2 Answers 2

up vote 2 down vote accepted

Erlang sends all messages to a single queue with the system memory being the upper limit on the queue size. If you want to prioritize messages you have to scan the entire queue for the high priority messages before fetching a low priority one.

There are ways to get around this by spawning handler processes which throttle and prioritize traffic, but the erlang VM as such has no support for it.

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Interesting. Thank you so much for clarifying. FYI, I read in a book that the "run queue" for erlang is now separated into a different one for each core or processor for performance reasons. But I didn't realize that the "run queue" was the same as the message queue. However, that now follows logic. That is, erlang only "runs" a process when it has a message in the queue so they're likely one and the same. –  Wayne Jan 3 '12 at 11:30
@Wayne "erlang only "runs" a process when it has a message in the queue". No, this is wrong. You can see this by spawning a process which immediately prints something, as in stackoverflow.com/a/8709661/9204 –  Alexey Romanov Jan 3 '12 at 12:10
@Wayne As Alexey said, the run queue and message queue are not to be confused. The run queue contains which Erlang processes (not OS threads) to execute next and the message queues contain all messages which have not been processed by the Erlang process. The reason for an Erlang process to be put in the run queue normally is the arrival of a message, but it could also be a number of other reasons. –  Lukas Jan 3 '12 at 15:47
Thank you so much Lukas. That makes sense. In our system we had a run queue per core...but "zillions" of message queues. We're currently centralizing to a single message queue per core but already see that you are right...we have other reasons for tasks (a.k.a. Processes) to get onto the run queue. Thanks for sticking with this thread to clarify! You're the man! –  Wayne Jan 3 '12 at 22:04

Answer to the additional question in the comment:

Even at Safari books online, the main ones never say how messages are passed on erlang. It's clear they don't used "shared memory". So how do they communicate? is it via loopback tcp/ip when on the same machine?

Within one virtual machine, messages are simply copied (except for big enough binaries; for them, pointers are copied) between memory areas assigned to processes. If you start several Erlang VMs on the same machine, they can communicate over TCP/IP.

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Thanks so much Alex. That makes sense, since they're all in the same process there's no need for shared memory usage or other ICP unless you have more than one VM on the same machine. Thanks!!! –  Wayne Jan 3 '12 at 22:06

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