View Source peer (stdlib v6.2)
Start and control linked Erlang nodes.
This module provides functions for starting linked Erlang nodes. The node spawning new nodes is called origin, and newly started nodes are peer nodes, or peers. A peer node automatically terminates when it loses the control connection to the origin. This connection could be an Erlang distribution connection, or an alternative - TCP or standard I/O. The alternative connection provides a way to execute remote procedure calls even when Erlang Distribution is not available, allowing to test the distribution itself.
Peer node terminal input/output is relayed through the origin. If a standard I/O
alternative connection is requested, console output also goes via the origin,
allowing debugging of node startup and boot script execution (see
-init_debug
). File I/O is not redirected,
contrary to slave
behaviour.
The peer node can start on the same or a different host (via ssh
) or in a
separate container (for example Docker). When the peer starts on the same host
as the origin, it inherits the current directory and environment variables from
the origin.
Note
This module is designed to facilitate multi-node testing with Common Test. Use the
?CT_PEER()
macro to start a linked peer node according to Common Test conventions: crash dumps written to specific location, node name prefixed with module name, calling function, and origin OS process ID). Userandom_name/1
to create sufficiently unique node names if you need more control.A peer node started without alternative connection behaves similarly to
slave
. When an alternative connection is requested, the behaviour is similar totest_server:start_node(Name, peer, Args).
Example
The following example implements a test suite starting extra Erlang nodes. It employs a number of techniques to speed up testing and reliably shut down peer nodes:
- peers start linked to test runner process. If the test case fails, the peer node is stopped automatically, leaving no rogue nodes running in the background
- arguments used to start the peer are saved in the control process state for manual analysis. If the test case fails, the CRASH REPORT contains these arguments
- multiple test cases can run concurrently speeding up overall testing process, peer node names are unique even when there are multiple instances of the same test suite running in parallel
-module(my_SUITE).
-behaviour(ct_suite).
-export([all/0, groups/0]).
-export([basic/1, args/1, named/1, restart_node/1, multi_node/1]).
-include_lib("common_test/include/ct.hrl").
groups() ->
[{quick, [parallel],
[basic, args, named, restart_node, multi_node]}].
all() ->
[{group, quick}].
basic(Config) when is_list(Config) ->
{ok, Peer, _Node} = ?CT_PEER(),
peer:stop(Peer).
args(Config) when is_list(Config) ->
%% specify additional arguments to the new node
{ok, Peer, _Node} = ?CT_PEER(["-emu_flavor", "smp"]),
peer:stop(Peer).
named(Config) when is_list(Config) ->
%% pass test case name down to function starting nodes
Peer = start_node_impl(named_test),
peer:stop(Peer).
start_node_impl(ActualTestCase) ->
{ok, Peer, Node} = ?CT_PEER(#{name => ?CT_PEER_NAME(ActualTestCase)}),
%% extra setup needed for multiple test cases
ok = rpc:call(Node, application, set_env, [kernel, key, value]),
Peer.
restart_node(Config) when is_list(Config) ->
Name = ?CT_PEER_NAME(),
{ok, Peer, Node} = ?CT_PEER(#{name => Name}),
peer:stop(Peer),
%% restart the node with the same name as before
{ok, Peer2, Node} = ?CT_PEER(#{name => Name, args => ["+fnl"]}),
peer:stop(Peer2).
The next example demonstrates how to start multiple nodes concurrently:
multi_node(Config) when is_list(Config) ->
Peers = [?CT_PEER(#{wait_boot => {self(), tag}})
|| _ <- lists:seq(1, 4)],
%% wait for all nodes to complete boot process, get their names:
_Nodes = [receive {tag, {started, Node, Peer}} -> Node end
|| {ok, Peer} <- Peers],
[peer:stop(Peer) || {ok, Peer} <- Peers].
Start a peer on a different host. Requires ssh
key-based authentication set
up, allowing "another_host" connection without password prompt.
Ssh = os:find_executable("ssh"),
peer:start_link(#{exec => {Ssh, ["another_host", "erl"]},
connection => standard_io}),
The following Common Test case demonstrates Docker integration, starting two containers with hostnames "one" and "two". In this example Erlang nodes running inside containers form an Erlang cluster.
docker(Config) when is_list(Config) ->
Docker = os:find_executable("docker"),
PrivDir = proplists:get_value(priv_dir, Config),
build_release(PrivDir),
build_image(PrivDir),
%% start two Docker containers
{ok, Peer, Node} = peer:start_link(#{name => lambda,
connection => standard_io,
exec => {Docker, ["run", "-h", "one", "-i", "lambda"]}}),
{ok, Peer2, Node2} = peer:start_link(#{name => lambda,
connection => standard_io,
exec => {Docker, ["run", "-h", "two", "-i", "lambda"]}}),
%% find IP address of the second node using alternative connection RPC
{ok, Ips} = peer:call(Peer2, inet, getifaddrs, []),
{"eth0", Eth0} = lists:keyfind("eth0", 1, Ips),
{addr, Ip} = lists:keyfind(addr, 1, Eth0),
%% make first node to discover second one
ok = peer:call(Peer, inet_db, set_lookup, [[file]]),
ok = peer:call(Peer, inet_db, add_host, [Ip, ["two"]]),
%% join a cluster
true = peer:call(Peer, net_kernel, connect_node, [Node2]),
%% verify that second peer node has only the first node visible
[Node] = peer:call(Peer2, erlang, nodes, []),
%% stop peers, causing containers to also stop
peer:stop(Peer2),
peer:stop(Peer).
build_release(Dir) ->
%% load sasl.app file, otherwise application:get_key will fail
application:load(sasl),
%% create *.rel - release file
RelFile = filename:join(Dir, "lambda.rel"),
Release = {release, {"lambda", "1.0.0"},
{erts, erlang:system_info(version)},
[{App, begin {ok, Vsn} = application:get_key(App, vsn), Vsn end}
|| App <- [kernel, stdlib, sasl]]},
ok = file:write_file(RelFile, list_to_binary(lists:flatten(
io_lib:format("~tp.", [Release])))),
RelFileNoExt = filename:join(Dir, "lambda"),
%% create boot script
{ok, systools_make, []} = systools:make_script(RelFileNoExt,
[silent, {outdir, Dir}]),
%% package release into *.tar.gz
ok = systools:make_tar(RelFileNoExt, [{erts, code:root_dir()}]).
build_image(Dir) ->
%% Create Dockerfile example, working only for Ubuntu 20.04
%% Expose port 4445, and make Erlang distribution to listen
%% on this port, and connect to it without EPMD
%% Set cookie on both nodes to be the same.
BuildScript = filename:join(Dir, "Dockerfile"),
Dockerfile =
"FROM ubuntu:20.04 as runner\n"
"EXPOSE 4445\n"
"WORKDIR /opt/lambda\n"
"COPY lambda.tar.gz /tmp\n"
"RUN tar -zxvf /tmp/lambda.tar.gz -C /opt/lambda\n"
"ENTRYPOINT [\"/opt/lambda/erts-" ++ erlang:system_info(version) ++
"/bin/dyn_erl\", \"-boot\", \"/opt/lambda/releases/1.0.0/start\","
" \"-kernel\", \"inet_dist_listen_min\", \"4445\","
" \"-erl_epmd_port\", \"4445\","
" \"-setcookie\", \"secret\"]\n",
ok = file:write_file(BuildScript, Dockerfile),
os:cmd("docker build -t lambda " ++ Dir).
Summary
Types
Alternative connection between the origin and the peer. When the connection closes, the peer node terminates automatically.
Disconnect timeout. See stop()
.
Overrides executable to start peer nodes with.
Peer node state.
Identifies the controlling process of a peer node.
Options that can be used when starting a peer
node through start/1
and
start_link/0,1
.
Specifies start/start_link timeout in milliseconds. Can be set to false
,
allowing the peer to start asynchronously. If {Pid, Tag}
is specified instead
of a timeout, the peer will send Tag
to the requested process.
Functions
Uses the alternative connection to evaluate
apply(Module, Function, Args)
on the peer node and returns the
corresponding value Result
.
Uses the alternative connection to evaluate
apply(Module, Function, Args)
on the peer node. No response is
delivered to the calling process.
Returns the peer node state.
Equivalent to random_name(peer)
.
Creates a sufficiently unique node name for the current host, combining a prefix, a unique number, and the current OS process ID.
Uses the alternative connection to send Message to a process on the the peer node.
Starts a peer node with the specified start_options/0
. Returns the
controlling process and the full peer node name, unless wait_boot
is not
requested and the host name is not known in advance.
The same as start_link(#{name => random_name()})
.
Starts a peer node in the same way as start/1
, except that the peer node is
linked to the currently executing process. If that process terminates, the peer
node also terminates.
Stops a peer node. How the node is stopped depends on the
shutdown
option passed when starting the peer node.
Currently the following shutdown
options are supported
Types
-type connection() :: Port :: 0..65535 | {inet:ip_address(), 0..65535} | standard_io.
Alternative connection between the origin and the peer. When the connection closes, the peer node terminates automatically.
If the peer_down
startup flag is set to crash
, the controlling process on
the origin node exits with corresponding reason, effectively providing a two-way link.
When connection
is set to a port number, the origin starts listening on the
requested TCP port, and the peer node connects to the port. When it is set to an
{IP, Port}
tuple, the origin listens only on the specified IP. The port number
can be set to 0 for automatic selection.
Using the standard_io
alternative connection starts the peer attached to the
origin (other connections use -detached
flag to erl). In this mode peer and
origin communicate via stdin/stdout.
-type disconnect_timeout() :: 1000..4294967295 | infinity.
Disconnect timeout. See stop()
.
Overrides executable to start peer nodes with.
By default it is the path to "erl", taken from init:get_argument(progname)
.
If progname
is not known, peer
makes best guess given the current ERTS version.
When a tuple is passed, the first element is the path to executable, and the second element is prepended to the final command line. This can be used to start peers on a remote host or in a Docker container. See the examples above.
This option is useful for testing backwards compatibility with previous
releases, installed at specific paths, or when the Erlang installation location
is missing from the PATH
.
-type peer_state() :: booting | running | {down, Reason :: term()}.
Peer node state.
-type server_ref() :: pid().
Identifies the controlling process of a peer node.
-type start_options() :: #{name => atom() | string(), longnames => boolean(), host => string(), peer_down => stop | continue | crash, connection => connection(), exec => exec(), detached => boolean(), args => [string()], post_process_args => fun(([string()]) -> [string()]), env => [{string(), string()}], wait_boot => wait_boot(), shutdown => close | halt | {halt, disconnect_timeout()} | disconnect_timeout()}.
Options that can be used when starting a peer
node through start/1
and
start_link/0,1
.
name
- Node name (the part before "@"). Whenname
is not specified, buthost
is,peer
follows compatibility behaviour and uses the origin node name.longnames
- Use long names to start a node. Default is taken from the origin usingnet_kernel:longnames()
. If the origin is not distributed, short names is the default.host
- Enforces a specific host name. Can be used to override the default behaviour and start "node@localhost" instead of "node@realhostname".peer_down
- Defines the peer control process behaviour when the control connection is closed from the peer node side (for example when the peer crashes or dumps core). When set tostop
(default), a lost control connection causes the control process to exit normally. Settingpeer_down
tocontinue
keeps the control process running, andcrash
will cause the controlling process to exit abnormally.connection
- Alternative connection specification. See theconnection
datatype.exec
- Alternative mechanism to start peer nodes with, for example, ssh instead of the default bash.detached
- Defines whether to pass the-detached
flag to the started peer. This option cannot be set tofalse
using thestandard_io
alternative connection type. Default istrue
.args
- Extra command line arguments to append to the "erl" command. Arguments are passed as is, no escaping or quoting is needed or accepted.post_process_args
- Allows the user to change the arguments passed toexec
before the peer is started. This can for example be useful when theexec
program wants the arguments to "erl" as a single argument. Example:peer:start(#{ name => peer:random_name(), exec => {os:find_executable("bash"),["-c","erl"]}, post_process_args => fun(["-c"|Args]) -> ["-c", lists:flatten(lists:join($\s, Args))] end }).
env
- List of environment variables with their values. This list is applied to a locally started executable. If you need to change the environment of the remote peer, adjustargs
to contain-env ENV_KEY ENV_VALUE
.wait_boot
- Specifies the start/start_link timeout. Seewait_boot
datatype.shutdown
- Specifies the peer node stopping behaviour. Seestop()
.
Specifies start/start_link timeout in milliseconds. Can be set to false
,
allowing the peer to start asynchronously. If {Pid, Tag}
is specified instead
of a timeout, the peer will send Tag
to the requested process.
The default is 15_000
ms.
Functions
-spec call(Dest :: server_ref(), Module :: module(), Function :: atom(), Args :: [term()]) -> Result :: term().
Equivalent to call(Dest, Module, Function, Args, 5000)
.
-spec call(Dest :: server_ref(), Module :: module(), Function :: atom(), Args :: [term()], Timeout :: timeout()) -> Result :: term().
Uses the alternative connection to evaluate
apply(Module, Function, Args)
on the peer node and returns the
corresponding value Result
.
Timeout
is an integer representing the timeout in milliseconds or the atom
infinity
which prevents the operation from ever timing out.
When an alternative connection is not requested, this function will raise exit
signal with the noconnection
reason. Use erpc
module to communicate over
Erlang distribution.
-spec cast(Dest :: server_ref(), Module :: module(), Function :: atom(), Args :: [term()]) -> ok.
Uses the alternative connection to evaluate
apply(Module, Function, Args)
on the peer node. No response is
delivered to the calling process.
peer:cast/4
fails silently when the alternative connection is not configured.
Use erpc
module to communicate over Erlang distribution.
-spec get_state(Dest :: server_ref()) -> peer_state().
Returns the peer node state.
The initial state is booting
; the node stays in that state until then boot
script is complete, and then the node progresses to running
. If the node stops
(gracefully or not), the state changes to down
.
-spec random_name() -> string().
Equivalent to random_name(peer)
.
Creates a sufficiently unique node name for the current host, combining a prefix, a unique number, and the current OS process ID.
Note
Use the
?CT_PEER(["erl_arg1"])
macro provided by Common Test-include_lib("common_test/include/ct.hrl")
for convenience. It starts a new peer using Erlang distribution as the control channel, supplies thes calling module's code path to the peer, and uses the calling function name for the name prefix.
-spec send(Dest :: server_ref(), To :: pid() | atom(), Message :: term()) -> ok.
Uses the alternative connection to send Message to a process on the the peer node.
Silently fails if no alternative connection is configured. The process can be referenced by process ID or registered name.
-spec start(start_options()) -> {ok, pid()} | {ok, pid(), node()} | {error, Reason} when Reason :: term().
Starts a peer node with the specified start_options/0
. Returns the
controlling process and the full peer node name, unless wait_boot
is not
requested and the host name is not known in advance.
The same as start_link(#{name => random_name()})
.
-spec start_link(start_options()) -> {ok, pid()} | {ok, pid(), node()} | {error, Reason} when Reason :: term().
Starts a peer node in the same way as start/1
, except that the peer node is
linked to the currently executing process. If that process terminates, the peer
node also terminates.
Accepts start_options/0
. Returns the controlling process and the full peer
node name, unless wait_boot
is not requested and host name is not known in
advance.
When the standard_io
alternative connection is requested, and wait_boot
is
not set to false
, a failed peer boot sequence causes the caller to exit with
the {boot_failed, {exit_status, ExitCode}}
reason.
-spec stop(Dest :: server_ref()) -> ok.
Stops a peer node. How the node is stopped depends on the
shutdown
option passed when starting the peer node.
Currently the following shutdown
options are supported:
halt
- This is the default shutdown behavior. It behaves asshutdown
option{halt, DefaultTimeout}
whereDefaultTimeout
currently equals5000
.{halt, Timeout :: disconnect_timeout()}
- Triggers a call toerlang:halt()
on the peer node and then waits for the Erlang distribution connection to the peer node to be taken down. If this connection has not been taken down afterTimeout
milliseconds, it will forcefully be taken down bypeer:stop/1
. See the warning below for more info about this.Timeout :: disconnect_timeout()
- Triggers a call toinit:stop()
on the peer node and then waits for the Erlang distribution connection to the peer node to be taken down. If this connection has not been taken down afterTimeout
milliseconds, it will forcefully be taken down bypeer:stop/1
. See the warning below for more info about this.close
- Close the control connection to the peer node and return. This is the fastest way for the caller ofpeer:stop/1
to stop a peer node.Note that if the Erlang distribution connection is not used as control connection it might not have been taken down when
peer:stop/1
returns. Also note that the warning below applies when the Erlang distribution connection is used as control connection.
Warning
In the cases where the Erlang distribution connection is taken down by
peer:stop/1
, other code independent of the peer code might react to the connection loss before the peer node is stopped which might cause undesirable effects. For example,global
might trigger even more Erlang distribution connections to other nodes to be taken down. The potential undesirable effects are, however, not limited to this. It is hard to say what the effects will be since these effects can be caused by any code with links or monitors to something on the origin node, or code monitoring the connection to the origin node.