CPG ([CloudI](http://cloudi.org) Process Groups)
================================================
Purpose
-------
CPG provides a process group interface that is similar to the pg2 module
within Erlang OTP. The pg Erlang OTP module is experimental and people
have avoided using it. However, the pg2 module is used internally by
Erlang OTP, and is currently the most common approach to the combination of
availability and partition tolerance in Erlang (as they relate to the
CAP theorem). When comparing these goals with gproc (and its usage of
`gen_leader`), gproc is focused on availability and consistency (as it relates
to the CAP theorem), which makes its goals similar to mnesia.
The cpg interface was created to avoid some problems with pg2 while pursuing
better availability and partition tolerance. pg2 utilizes ets (global
key/value storage in Erlang which requires internal memory locking,
which limits scalability) but cpg uses internal process memory. By default,
cpg utilizes Erlang strings for group names (list of integers) and provides
the ability to set a pattern string as a group name. A pattern string
is a string that includes the`"*"`wildcard character (equivalent to ".+"
regex while`"**"`is forbidden). When a group name is a pattern string,
a process can be retrieved by matching the pattern. To change the behavior
to be compatible with pg2 usage (or gproc), see the **Usage** section below.
The cpg interface provides more error checking than the pg2 module, and it
allows the user to obtain the groups state so that group name lookups do not
require a message to the cpg scope process. The cpg scope is a locally
registered process name used to provide all the group names with a scope.
By avoiding a message to the cpg scope process, contention for the single
process message queue can be avoided.
The process group solutions for Erlang discussed here depend on
the distributed Erlang functionality, provided natively by Erlang OTP.
The distributed Erlang functionality automatically creates a fully-connected
network topology and is only meant for a Local Area Network (LAN).
Since a fully-connected network topology is created that requires a
net tick time average of 60 seconds (the net tick time is not changed
because of the problems that occur due to the assumptions based on its
default value, which impacts typical Erlang OTP functionality, e.g.,
Erlang process links between distributed Erlang nodes) the distributed
Erlang node connections are limited to roughly 50-100 nodes. So, that
means these process group solutions are only targeting a cluster of Erlang
nodes, given the constraints of distributed Erlang and a fully-connected
network topology.
Build
-----
rebar get-deps
rebar compile
Usage
-----
If you need non-string (not a list of integers) group names
(e.g., when replacing gproc), you can change the cpg application
`group_storage` env setting by providing a module name that provides a
dict module interface (or just set to `dict`).
Example
-------
$ erl -sname cpg@localhost -pz ebin/ -pz deps/*/ebin/
Erlang R16B03-1 (erts-5.10.4) [source] [64-bit] [smp:8:8] [async-threads:10] [kernel-poll:false]
Eshell V5.10.4 (abort with ^G)
(cpg@localhost)1> reltool_util:application_start(cpg).
ok
(cpg@localhost)2> cpg:join(groups_scope1, "Hello", self()).
ok
(cpg@localhost)3> cpg:join(groups_scope1, "World!", self()).
ok
(cpg@localhost)4> cpg:get_local_members(groups_scope1, "Hello").
{ok,"Hello",[<0.39.0>]}
(cpg@localhost)5> cpg:get_local_members(groups_scope1, "World!").
{ok,"World!",[<0.39.0>]}
(cpg@localhost)6> cpg:which_groups(groups_scope1).
["Hello","World!"]
(cpg@localhost)7> cpg:which_groups(groups_scope2).
[]
What does this example mean? The cpg interface allows you to define groups of
Erlang processes and each group exists within a scope. A scope is represented
as an atom which is used to locally register a cpg Erlang process using
`start_link/1`. For a given cpg scope, any Erlang process can join or leave
a group. The group name is a string (list of integers) due to the default
usage of the trie data structure, but that can be changed
(see the **Usage** section above). If the scope is not specified, the default
scope is used: `cpg_default_scope`.
In the example, both the process group "Hello" and the process group "World!"
are created within the `groups_scope1` scope. Within both progress groups,
a single Erlang process is added once. If more scopes were required, they
could be created automatically by being provided within the cpg application
scope list. There is no restriction on the number of process groups that
can be created within a scope, and there is nothing limiting the number
of Erlang processes that can be added to a single group. A single Erlang
process can be added to a single process group in a single scope multiple times
to change the probability of returning a particular Erlang process, when
only a single process is requested from the cpg interface (e.g., from
the `get_closest_pid` function).
Tests
-----
rebar get-deps
rebar compile
ERL_LIBS="/path/to/proper" rebar eunit
Author
------
Michael Truog (mjtruog [at] gmail (dot) com)
License
-------
BSD (src/cpg.erl is under the Erlang Public License)
