Elixir v1.6.6 GenServer behaviour View Source
A behaviour module for implementing the server of a client-server relation.
A GenServer is a process like any other Elixir process and it can be used to keep state, execute code asynchronously and so on. The advantage of using a generic server process (GenServer) implemented using this module is that it will have a standard set of interface functions and include functionality for tracing and error reporting. It will also fit into a supervision tree.
Example
The GenServer behaviour abstracts the common client-server interaction. Developers are only required to implement the callbacks and functionality they are interested in.
Let’s start with a code example and then explore the available callbacks. Imagine we want a GenServer that works like a stack, allowing us to push and pop items:
defmodule Stack do
use GenServer
# Callbacks
@impl true
def init(stack) do
{:ok, stack}
end
@impl true
def handle_call(:pop, _from, [h | t]) do
{:reply, h, t}
end
@impl true
def handle_cast({:push, item}, state) do
{:noreply, [item | state]}
end
end
# Start the server
{:ok, pid} = GenServer.start_link(Stack, [:hello])
# This is the client
GenServer.call(pid, :pop)
#=> :hello
GenServer.cast(pid, {:push, :world})
#=> :ok
GenServer.call(pid, :pop)
#=> :world
We start our Stack
by calling start_link/3
, passing the module
with the server implementation and its initial argument (a list
representing the stack containing the item :hello
). We can primarily
interact with the server by sending two types of messages. call
messages expect a reply from the server (and are therefore synchronous)
while cast messages do not.
Every time you do a GenServer.call/3
, the client will send a message
that must be handled by the handle_call/3
callback in the GenServer.
A cast/2
message must be handled by handle_cast/2
.
use GenServer and callbacks
There are 6 callbacks required to be implemented in a GenServer
. By
adding use GenServer
to your module, Elixir will automatically define
all 6 callbacks for you, leaving it up to you to implement the ones
you want to customize.
use GenServer
also defines a child_spec/1
function, allowing the
defined module to be put under a supervision tree. The generated
child_spec/1
can be customized with the following options:
:id
- the child specification id, defaults to the current module:start
- how to start the child process (defaults to calling__MODULE__.start_link/1
):restart
- when the child should be restarted, defaults to:permanent
:shutdown
- how to shut down the child
For example:
use GenServer, restart: :transient, shutdown: 10_000
See the Supervisor
docs for more information.
Name Registration
Both start_link/3
and start/3
support the GenServer
to register
a name on start via the :name
option. Registered names are also
automatically cleaned up on termination. The supported values are:
an atom - the GenServer is registered locally with the given name using
Process.register/2
.{:global, term}
- the GenServer is registered globally with the given term using the functions in the:global
module.{:via, module, term}
- the GenServer is registered with the given mechanism and name. The:via
option expects a module that exportsregister_name/2
,unregister_name/1
,whereis_name/1
andsend/2
. One such example is the:global
module which uses these functions for keeping the list of names of processes and their associated PIDs that are available globally for a network of Elixir nodes. Elixir also ships with a local, decentralized and scalable registry calledRegistry
for locally storing names that are generated dynamically.
For example, we could start and register our Stack
server locally as follows:
# Start the server and register it locally with name MyStack
{:ok, _} = GenServer.start_link(Stack, [:hello], name: MyStack)
# Now messages can be sent directly to MyStack
GenServer.call(MyStack, :pop) #=> :hello
Once the server is started, the remaining functions in this module (call/3
,
cast/2
, and friends) will also accept an atom, or any :global
or :via
tuples. In general, the following formats are supported:
- a
pid
- an
atom
if the server is locally registered {atom, node}
if the server is locally registered at another node{:global, term}
if the server is globally registered{:via, module, name}
if the server is registered through an alternative registry
If there is an interest to register dynamic names locally, do not use
atoms, as atoms are never garbage collected and therefore dynamically
generated atoms won’t be garbage collected. For such cases, you can
set up your own local registry by using the Registry
module.
Client / Server APIs
Although in the example above we have used GenServer.start_link/3
and
friends to directly start and communicate with the server, most of the
time we don’t call the GenServer
functions directly. Instead, we wrap
the calls in new functions representing the public API of the server.
Here is a better implementation of our Stack module:
defmodule Stack do
use GenServer
# Client
def start_link(default) do
GenServer.start_link(__MODULE__, default)
end
def push(pid, item) do
GenServer.cast(pid, {:push, item})
end
def pop(pid) do
GenServer.call(pid, :pop)
end
# Server (callbacks)
@impl true
def handle_call(:pop, _from, [h | t]) do
{:reply, h, t}
end
@impl true
def handle_cast({:push, item}, state) do
{:noreply, [item | state]}
end
end
In practice, it is common to have both server and client functions in the same module. If the server and/or client implementations are growing complex, you may want to have them in different modules.
Receiving “regular” messages
The goal of a GenServer
is to abstract the “receive” loop for developers,
automatically handling system messages, support code change, synchronous
calls and more. Therefore, you should never call your own “receive” inside
the GenServer callbacks as doing so will cause the GenServer to misbehave.
Besides the synchronous and asynchronous communication provided by call/3
and cast/2
, “regular” messages sent by functions such Kernel.send/2
,
Process.send_after/4
and similar, can be handled inside the handle_info/2
callback.
handle_info/2
can be used in many situations, such as handling monitor
DOWN messages sent by Process.monitor/1
. Another use case for handle_info/2
is to perform periodic work, with the help of Process.send_after/4
:
defmodule MyApp.Periodically do
use GenServer
def start_link do
GenServer.start_link(__MODULE__, %{})
end
@impl true
def init(state) do
schedule_work() # Schedule work to be performed on start
{:ok, state}
end
@impl true
def handle_info(:work, state) do
# Do the desired work here
schedule_work() # Reschedule once more
{:noreply, state}
end
defp schedule_work() do
Process.send_after(self(), :work, 2 * 60 * 60 * 1000) # In 2 hours
end
end
Debugging with the :sys module
GenServers, as special processes,
can be debugged using the :sys
module. Through various hooks, this module
allows developers to introspect the state of the process and trace
system events that happen during its execution, such as received messages,
sent replies and state changes.
Let’s explore the basic functions from the
:sys
module used for debugging:
:sys.get_state/2
- allows retrieval of the state of the process. In the case of a GenServer process, it will be the callback module state, as passed into the callback functions as last argument.:sys.get_status/2
- allows retrieval of the status of the process. This status includes the process dictionary, if the process is running or is suspended, the parent PID, the debugger state, and the state of the behaviour module, which includes the callback module state (as returned by:sys.get_state/2
). It’s possible to change how this status is represented by defining the optionalGenServer.format_status/2
callback.:sys.trace/3
- prints all the system events to:stdio
.:sys.statistics/3
- manages collection of process statistics.:sys.no_debug/2
- turns off all debug handlers for the given process. It is very important to switch off debugging once we’re done. Excessive debug handlers or those that should be turned off, but weren’t, can seriously damage the performance of the system.:sys.suspend/2
- allows to suspend a process so that it only replies to system messages but no other messages. A suspended process can be reactivated via:sys.resume/2
.
Let’s see how we could use those functions for debugging the stack server we defined earlier.
iex> {:ok, pid} = Stack.start_link([])
iex> :sys.statistics(pid, true) # turn on collecting process statistics
iex> :sys.trace(pid, true) # turn on event printing
iex> Stack.push(pid, 1)
*DBG* <0.122.0> got cast {push,1}
*DBG* <0.122.0> new state [1]
:ok
iex> :sys.get_state(pid)
[1]
iex> Stack.pop(pid)
*DBG* <0.122.0> got call pop from <0.80.0>
*DBG* <0.122.0> sent 1 to <0.80.0>, new state []
1
iex> :sys.statistics(pid, :get)
{:ok,
[start_time: {{2016, 7, 16}, {12, 29, 41}},
current_time: {{2016, 7, 16}, {12, 29, 50}},
reductions: 117, messages_in: 2, messages_out: 0]}
iex> :sys.no_debug(pid) # turn off all debug handlers
:ok
iex> :sys.get_status(pid)
{:status, #PID<0.122.0>, {:module, :gen_server},
[["$initial_call": {Stack, :init, 1}, # pdict
"$ancestors": [#PID<0.80.0>, #PID<0.51.0>]],
:running, # :running | :suspended
#PID<0.80.0>, # parent
[], # debugger state
[header: 'Status for generic server <0.122.0>', # module status
data: [{'Status', :running}, {'Parent', #PID<0.80.0>},
{'Logged events', []}], data: [{'State', [1]}]]]}
Learn more
If you wish to find out more about gen servers, the Elixir Getting Started guide provides a tutorial-like introduction. The documentation and links in Erlang can also provide extra insight.
Link to this section Summary
Types
Debug options supported by the start*
functions
Tuple describing the client of a call request
The GenServer name
Return values of start*
functions
Option values used by the start*
functions
Options used by the start*
functions
The server reference
Functions
Casts all servers locally registered as name
at the specified nodes
Makes a synchronous call to the server
and waits for its reply
Sends an asynchronous request to the server
Calls all servers locally registered as name
at the specified nodes
Replies to a client
Starts a GenServer
process without links (outside of a supervision tree)
Starts a GenServer
process linked to the current process
Synchronously stops the server with the given reason
Returns the pid
or {name, node}
of a GenServer process, or nil
if
no process is associated with the given server
Callbacks
Invoked to change the state of the GenServer
when a different version of a
module is loaded (hot code swapping) and the state’s term structure should be
changed
Invoked in some cases to retrieve a formatted version of the GenServer
status
Invoked to handle asynchronous cast/2
messages
Invoked to handle all other messages
Invoked when the server is started. start_link/3
or start/3
will
block until it returns
Invoked when the server is about to exit. It should do any cleanup required
Link to this section Types
debug() :: [:trace | :log | :statistics | {:log_to_file, Path.t()}]
Debug options supported by the start*
functions
Tuple describing the client of a call request.
pid
is the PID of the caller and tag
is a unique term used to identify the
call.
The GenServer name
Return values of start*
functions
option() :: {:debug, debug()} | {:name, name()} | {:timeout, timeout()} | {:spawn_opt, Process.spawn_opt()}
Option values used by the start*
functions
Options used by the start*
functions
The server reference
Link to this section Functions
Casts all servers locally registered as name
at the specified nodes.
This function returns immediately and ignores nodes that do not exist, or where the server name does not exist.
See multi_call/4
for more information.
Makes a synchronous call to the server
and waits for its reply.
The client sends the given request
to the server and waits until a reply
arrives or a timeout occurs. handle_call/3
will be called on the server
to handle the request.
server
can be any of the values described in the “Name registration”
section of the documentation for this module.
Timeouts
timeout
is an integer greater than zero which specifies how many
milliseconds to wait for a reply, or the atom :infinity
to wait
indefinitely. The default value is 5000
. If no reply is received within
the specified time, the function call fails and the caller exits. If the
caller catches the failure and continues running, and the server is just late
with the reply, it may arrive at any time later into the caller’s message
queue. The caller must in this case be prepared for this and discard any such
garbage messages that are two-element tuples with a reference as the first
element.
Sends an asynchronous request to the server
.
This function always returns :ok
regardless of whether
the destination server
(or node) exists. Therefore it
is unknown whether the destination server
successfully
handled the message.
handle_cast/2
will be called on the server to handle
the request. In case the server
is on a node which is
not yet connected to the caller one, the call is going to
block until a connection happens. This is different than
the behaviour in OTP’s :gen_server
where the message
is sent by another process in this case, which could cause
messages to other nodes to arrive out of order.
Calls all servers locally registered as name
at the specified nodes
.
First, the request
is sent to every node in nodes
; then, the caller waits
for the replies. This function returns a two-element tuple {replies,
bad_nodes}
where:
replies
- is a list of{node, reply}
tuples wherenode
is the node that replied andreply
is its replybad_nodes
- is a list of nodes that either did not exist or where a server with the givenname
did not exist or did not reply
nodes
is a list of node names to which the request is sent. The default
value is the list of all known nodes (including this node).
To avoid that late answers (after the timeout) pollute the caller’s message queue, a middleman process is used to do the actual calls. Late answers will then be discarded when they arrive to a terminated process.
Examples
Assuming the Stack
GenServer mentioned in the docs for the GenServer
module is registered as Stack
in the :"foo@my-machine"
and
:"bar@my-machine"
nodes:
GenServer.multi_call(Stack, :pop)
#=> {[{:"foo@my-machine", :hello}, {:"bar@my-machine", :world}], []}
Replies to a client.
This function can be used to explicitly send a reply to a client that called
call/3
or multi_call/4
when the reply cannot be specified in the return
value of handle_call/3
.
client
must be the from
argument (the second argument) accepted by
handle_call/3
callbacks. reply
is an arbitrary term which will be given
back to the client as the return value of the call.
Note that reply/2
can be called from any process, not just the GenServer
that originally received the call (as long as that GenServer communicated the
from
argument somehow).
This function always returns :ok
.
Examples
def handle_call(:reply_in_one_second, from, state) do
Process.send_after(self(), {:reply, from}, 1_000)
{:noreply, state}
end
def handle_info({:reply, from}, state) do
GenServer.reply(from, :one_second_has_passed)
{:noreply, state}
end
Starts a GenServer
process without links (outside of a supervision tree).
See start_link/3
for more information.
Starts a GenServer
process linked to the current process.
This is often used to start the GenServer
as part of a supervision tree.
Once the server is started, the init/1
function of the given module
is
called with args
as its arguments to initialize the server. To ensure a
synchronized start-up procedure, this function does not return until init/1
has returned.
Note that a GenServer
started with start_link/3
is linked to the
parent process and will exit in case of crashes from the parent. The GenServer
will also exit due to the :normal
reasons in case it is configured to trap
exits in the init/1
callback.
Options
:name
- used for name registration as described in the “Name registration” section of the module documentation:timeout
- if present, the server is allowed to spend the given number of milliseconds initializing or it will be terminated and the start function will return{:error, :timeout}
:debug
- if present, the corresponding function in the:sys
module is invoked:spawn_opt
- if present, its value is passed as options to the underlying process as inProcess.spawn/4
Return values
If the server is successfully created and initialized, this function returns
{:ok, pid}
, where pid
is the PID of the server. If a process with the
specified server name already exists, this function returns
{:error, {:already_started, pid}}
with the PID of that process.
If the init/1
callback fails with reason
, this function returns
{:error, reason}
. Otherwise, if it returns {:stop, reason}
or :ignore
, the process is terminated and this function returns
{:error, reason}
or :ignore
, respectively.
Synchronously stops the server with the given reason
.
The terminate/2
callback of the given server
will be invoked before
exiting. This function returns :ok
if the server terminates with the
given reason; if it terminates with another reason, the call exits.
This function keeps OTP semantics regarding error reporting.
If the reason is any other than :normal
, :shutdown
or
{:shutdown, _}
, an error report is logged.
Returns the pid
or {name, node}
of a GenServer process, or nil
if
no process is associated with the given server
.
Examples
For example, to lookup a server process, monitor it and send a cast to it:
process = GenServer.whereis(server)
monitor = Process.monitor(process)
GenServer.cast(process, :hello)
Link to this section Callbacks
Invoked to change the state of the GenServer
when a different version of a
module is loaded (hot code swapping) and the state’s term structure should be
changed.
old_vsn
is the previous version of the module (defined by the @vsn
attribute) when upgrading. When downgrading the previous version is wrapped in
a 2-tuple with first element :down
. state
is the current state of the
GenServer
and extra
is any extra data required to change the state.
Returning {:ok, new_state}
changes the state to new_state
and the code
change is successful.
Returning {:error, reason}
fails the code change with reason reason
and
the state remains as the previous state.
If code_change/3
raises the code change fails and the loop will continue
with its previous state. Therefore this callback does not usually contain side effects.
Invoked in some cases to retrieve a formatted version of the GenServer
status.
This callback can be useful to control the appearance of the status of the
GenServer
. For example, it can be used to return a compact representation of
the GenServer
’s state to avoid having large state terms printed.
one of
:sys.get_status/1
or:sys.get_status/2
is invoked to get the status of theGenServer
; in such cases,reason
is:normal
the
GenServer
terminates abnormally and logs an error; in such cases,reason
is:terminate
pdict_and_state
is a two-elements list [pdict, state]
where pdict
is a
list of {key, value}
tuples representing the current process dictionary of
the GenServer
and state
is the current state of the GenServer
.
handle_call(request :: term(), from(), state :: term()) :: {:reply, reply, new_state} | {:reply, reply, new_state, timeout() | :hibernate} | {:noreply, new_state} | {:noreply, new_state, timeout() | :hibernate} | {:stop, reason, reply, new_state} | {:stop, reason, new_state} when reply: term(), new_state: term(), reason: term()
Invoked to handle synchronous call/3
messages. call/3
will block until a
reply is received (unless the call times out or nodes are disconnected).
request
is the request message sent by a call/3
, from
is a 2-tuple
containing the caller’s PID and a term that uniquely identifies the call, and
state
is the current state of the GenServer
.
Returning {:reply, reply, new_state}
sends the response reply
to the
caller and continues the loop with new state new_state
.
Returning {:reply, reply, new_state, timeout}
is similar to
{:reply, reply, new_state}
except handle_info(:timeout, new_state)
will be
called after timeout
milliseconds if no messages are received.
Returning {:reply, reply, new_state, :hibernate}
is similar to
{:reply, reply, new_state}
except the process is hibernated and will
continue the loop once a message is in its message queue. If a message is
already in the message queue this will be immediately. Hibernating a
GenServer
causes garbage collection and leaves a continuous heap that
minimises the memory used by the process.
Hibernating should not be used aggressively as too much time could be spent garbage collecting. Normally it should only be used when a message is not expected soon and minimising the memory of the process is shown to be beneficial.
Returning {:noreply, new_state}
does not send a response to the caller and
continues the loop with new state new_state
. The response must be sent with
reply/2
.
There are three main use cases for not replying using the return value:
- To reply before returning from the callback because the response is known before calling a slow function.
- To reply after returning from the callback because the response is not yet available.
- To reply from another process, such as a task.
When replying from another process the GenServer
should exit if the other
process exits without replying as the caller will be blocking awaiting a
reply.
Returning {:noreply, new_state, timeout | :hibernate}
is similar to
{:noreply, new_state}
except a timeout or hibernation occurs as with a
:reply
tuple.
Returning {:stop, reason, reply, new_state}
stops the loop and terminate/2
is called with reason reason
and state new_state
. Then the reply
is sent
as the response to call and the process exits with reason reason
.
Returning {:stop, reason, new_state}
is similar to
{:stop, reason, reply, new_state}
except a reply is not sent.
If this callback is not implemented, the default implementation by
use GenServer
will fail with a RuntimeError
exception with a message:
attempted to call GenServer
but no handle_call/3
clause was provided.
Invoked to handle asynchronous cast/2
messages.
request
is the request message sent by a cast/2
and state
is the current
state of the GenServer
.
Returning {:noreply, new_state}
continues the loop with new state new_state
.
Returning {:noreply, new_state, timeout}
is similar to
{:noreply, new_state}
except handle_info(:timeout, new_state)
will be
called after timeout
milliseconds if no messages are received.
Returning {:noreply, new_state, :hibernate}
is similar to
{:noreply, new_state}
except the process is hibernated before continuing the
loop. See handle_call/3
for more information.
Returning {:stop, reason, new_state}
stops the loop and terminate/2
is
called with the reason reason
and state new_state
. The process exits with
reason reason
.
If this callback is not implemented, the default implementation by
use GenServer
will fail with a RuntimeError
exception with a message:
attempted to call GenServer
but no handle_cast/2
clause was provided.
Invoked to handle all other messages.
msg
is the message and state
is the current state of the GenServer
. When
a timeout occurs the message is :timeout
.
Return values are the same as handle_cast/2
.
If this callback is not implemented, the default implementation by
use GenServer
will return {:noreply, state}
.
Invoked when the server is started. start_link/3
or start/3
will
block until it returns.
args
is the argument term (second argument) passed to start_link/3
.
Returning {:ok, state}
will cause start_link/3
to return
{:ok, pid}
and the process to enter its loop.
Returning {:ok, state, timeout}
is similar to {:ok, state}
except handle_info(:timeout, state)
will be called after timeout
milliseconds if no messages are received within the timeout.
Returning {:ok, state, :hibernate}
is similar to
{:ok, state}
except the process is hibernated before entering the loop. See
handle_call/3
for more information on hibernation.
Returning :ignore
will cause start_link/3
to return :ignore
and the
process will exit normally without entering the loop or calling terminate/2
.
If used when part of a supervision tree the parent supervisor will not fail
to start nor immediately try to restart the GenServer
. The remainder of the
supervision tree will be (re)started and so the GenServer
should not be
required by other processes. It can be started later with
Supervisor.restart_child/2
as the child specification is saved in the parent
supervisor. The main use cases for this are:
- The
GenServer
is disabled by configuration but might be enabled later. - An error occurred and it will be handled by a different mechanism than the
Supervisor
. Likely this approach involves callingSupervisor.restart_child/2
after a delay to attempt a restart.
Returning {:stop, reason}
will cause start_link/3
to return
{:error, reason}
and the process to exit with reason reason
without
entering the loop or calling terminate/2
.
Invoked when the server is about to exit. It should do any cleanup required.
reason
is exit reason and state
is the current state of the GenServer
.
The return value is ignored.
terminate/2
is called if a callback (except init/1
) does one of the
following:
- returns a
:stop
tuple - raises
- calls
Kernel.exit/1
- returns an invalid value
- the
GenServer
traps exits (usingProcess.flag/2
) and the parent process sends an exit signal
If part of a supervision tree, a GenServer
’s Supervisor
will send an exit
signal when shutting it down. The exit signal is based on the shutdown
strategy in the child’s specification. If it is :brutal_kill
the GenServer
is killed and so terminate/2
is not called. However if it is a timeout the
Supervisor
will send the exit signal :shutdown
and the GenServer
will
have the duration of the timeout to call terminate/2
- if the process is
still alive after the timeout it is killed.
If the GenServer
receives an exit signal (that is not :normal
) from any
process when it is not trapping exits it will exit abruptly with the same
reason and so not call terminate/2
. Note that a process does NOT trap
exits by default and an exit signal is sent when a linked process exits or its
node is disconnected.
Therefore it is not guaranteed that terminate/2
is called when a GenServer
exits. For such reasons, we usually recommend important clean-up rules to
happen in separated processes either by use of monitoring or by links
themselves. For example if the GenServer
controls a port
(e.g.
:gen_tcp.socket
) or File.io_device/0
, they will be closed on receiving a
GenServer
’s exit signal and do not need to be closed in terminate/2
.
If reason
is not :normal
, :shutdown
, nor {:shutdown, term}
an error is
logged.