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My project has blown through the max 1M atoms, we've cranked up the limit, but I need to apply some sanity to the code that people are submitting with regard to list_to_atom and its friends. I'd like to start by getting a list of all the registered atoms so I can see where the largest offenders are. Is there any way to do this. I'll have to be creative about how I do it so I don't end up trying to dump 1-2M lines in a live console.

Thanks.

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up vote 4 down vote accepted

I'm not sure if there's a way to do it on a live system, but if you can run it in a test environment you should be able to get a list via crash dump. The atom table is near the end of the crash dump format. You can create a crash dump via erlang:halt/1, but that will bring down the whole runtime system.

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Well, I probably have a crash dump lying around, so that's not a bad way to go. Maybe I'll dig into the erlang source and see how it gets at it. With a little creative hackery, maybe I can get at in from the live console. – Sniggerfardimungus Nov 21 '12 at 18:01

You can get hold of all atoms by using an undocumented feature of the external term format.

An Erlang term encoded in the external term format starts with the byte 131, then a byte identifying the type, and then the actual data. I found that EEP-43 mentions all the possible types, including ATOM_INTERNAL_REF3 with type byte 75, which isn't mentioned in the official documentation of the external term format.

For ATOM_INTERNAL_REF3, the data is an index into the atom table, encoded as a 24-bit integer. We can easily create such a binary: <<131,75,N:24>>

For example, in my Erlang VM, false seems to be the zeroth atom in the atom table:

> binary_to_term(<<131,75,0:24>>).
false

There's no simple way to find the number of atoms currently in the atom table, but we can keep increasing the number until we get a badarg error.

So this little module gives you a list of all atoms:

-module(all_atoms).

-export([all_atoms/0]).

atom_by_number(N) ->
    binary_to_term(<<131,75,N:24>>).

all_atoms() ->
    atoms_starting_at(0).

atoms_starting_at(N) ->
    try atom_by_number(N) of
        Atom ->
            [Atom] ++ atoms_starting_at(N + 1)
    catch
        error:badarg ->
            []
    end.

The output looks like:

> all_atoms:all_atoms().
[false,true,'_',nonode@nohost,'$end_of_table','','fun',
 infinity,timeout,normal,call,return,throw,error,exit,
 undefined,nocatch,undefined_function,undefined_lambda,
 'DOWN','UP','EXIT',aborted,abs_path,absoluteURI,ac,accessor,
 active,all|...]
> length(v(-1)).
9821
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I dare say that if you use more than 1M atoms, then you are doing something wrong. Atoms are intended to be static as soon as the application runs or at least upper bounded by some small number, 3000 or so for a medium sized application.

Be very careful when an enemy can generate atoms in your vm. especially calls like list_to_atom/1 is somewhat dangerous.

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Yes, if you have more than 10^6 atoms in erlang you are doing something really wrong – Zachary K Nov 24 '12 at 19:03

EDITED (wrong answer..)

You can adjust number of atoms with +t

http://www.erlang.org/doc/efficiency_guide/advanced.html

..but I know very few use cases when it is necessary.

You can track atom stats with erlang:memory()

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Isn't erlang:registered/0 just for registered processes / ports? I don't believe that dumps the entire atom table; i.e., don't think calling list_to_atom will add to this list. – Tadmas Nov 20 '12 at 22:14
    
you are right.. I miss understood the question – user425720 Nov 20 '12 at 22:15
    
added some hints, maybe helpful – user425720 Nov 20 '12 at 22:17

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