%%-------------------------------------------------------------------- %% %CopyrightBegin% %% %% Copyright Ericsson AB 2010-2013. All Rights Reserved. %% %% The contents of this file are subject to the Erlang Public License, %% Version 1.1, (the "License"); you may not use this file except in %% compliance with the License. You should have received a copy of the %% Erlang Public License along with this software. If not, it can be %% retrieved online at http://www.erlang.org/. %% %% Software distributed under the License is distributed on an "AS IS" %% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See %% the License for the specific language governing rights and limitations %% under the License. %% %% %CopyrightEnd% %%% @doc Common Test Framework functions for starting and stopping nodes for %%% Large Scale Testing. %%% %%%
This module exports functions which are used by the Common Test Master
%%% to start and stop "slave" nodes. It is the default callback module for the
%%% {init, node_start}
term of the Test Specification.
Node
on the local host.
%%% @see start/3
start(Node) ->
start(gethostname(), Node).
%%%-----------------------------------------------------------------
%%% @spec start(HostOrNode, NodeOrOpts) -> Result
%%% HostOrNode = atom()
%%% NodeOrOpts = atom() | list()
%%% Result = {ok, NodeName} |
%%% {error, already_started, NodeName} |
%%% {error, started_not_connected, NodeName} |
%%% {error, boot_timeout, NodeName} |
%%% {error, init_timeout, NodeName} |
%%% {error, startup_timeout, NodeName} |
%%% {error, not_alive, NodeName}
%%% NodeName = atom()
%%% @doc Starts an Erlang node with default options on a specified
%%% host, or on the local host with specified options. That is,
%%% the call is interpreted as start(Host, Node)
when the
%%% second argument is atom-valued and start(Node, Opts)
%%% when it's list-valued.
%%% @see start/3
start(_HostOrNode = Node, _NodeOrOpts = Opts) %% match to satiate edoc
when is_list(Opts) ->
start(gethostname(), Node, Opts);
start(Host, Node) ->
start(Host, Node, []).
%%%-----------------------------------------------------------------
%%% @spec start(Host, Node, Opts) -> Result
%%% Node = atom()
%%% Host = atom()
%%% Opts = [OptTuples]
%%% OptTuples = {username, Username} |
%%% {password, Password} |
%%% {boot_timeout, BootTimeout} | {init_timeout, InitTimeout} |
%%% {startup_timeout, StartupTimeout} |
%%% {startup_functions, StartupFunctions} |
%%% {monitor_master, Monitor} |
%%% {kill_if_fail, KillIfFail} |
%%% {erl_flags, ErlangFlags} |
%%% {env, [{EnvVar,Value}]}
%%% Username = string()
%%% Password = string()
%%% BootTimeout = integer()
%%% InitTimeout = integer()
%%% StartupTimeout = integer()
%%% StartupFunctions = [StartupFunctionSpec]
%%% StartupFunctionSpec = {Module, Function, Arguments}
%%% Module = atom()
%%% Function = atom()
%%% Arguments = [term]
%%% Monitor = bool()
%%% KillIfFail = bool()
%%% ErlangFlags = string()
%%% EnvVar = string()
%%% Value = string()
%%% Result = {ok, NodeName} | {error, already_started, NodeName} |
%%% {error, started_not_connected, NodeName} |
%%% {error, boot_timeout, NodeName} |
%%% {error, init_timeout, NodeName} |
%%% {error, startup_timeout, NodeName} |
%%% {error, not_alive, NodeName}
%%% NodeName = atom()
%%% @doc Starts an Erlang node with name Node
on host
%%% Host
as specified by the combination of options in
%%% Opts
.
%%%
%%% Options Username
and Password
will be used
%%% to log in onto the remote host Host
.
%%% Username, if omitted, defaults to the current user name,
%%% and password is empty by default.
A list of functions specified in the Startup
option will be
%%% executed after startup of the node. Note that all used modules should be
%%% present in the code path on the Host
.
The timeouts are applied as follows:
%%%
%%%
BootTimeout
- time to start the Erlang node, in seconds.
%%% Defaults to 3 seconds. If node does not become pingable within this time,
%%% the result {error, boot_timeout, NodeName}
is returned;
%%% InitTimeout
- time to wait for the node until it calls the
%%% internal callback function informing master about successfull startup.
%%% Defaults to one second.
%%% In case of timed out message the result
%%% {error, init_timeout, NodeName}
is returned;
%%% StartupTimeout
- time to wait intil the node finishes to run
%%% the StartupFunctions
. Defaults to one second.
%%% If this timeout occurs, the result
%%% {error, startup_timeout, NodeName}
is returned.
%%%
Option monitor_master
specifies, if the slave node should be
%%% stopped in case of master node stop. Defaults to false.
Option kill_if_fail
specifies, if the slave node should be
%%% killed in case of a timeout during initialization or startup.
%%% Defaults to true. Note that node also may be still alive it the boot
%%% timeout occurred, but it will not be killed in this case.
Option erlang_flags
specifies, which flags will be added
%%% to the parameters of the erl
executable.
Option env
specifies a list of environment variables
%%% that will extended the environment.
Special return values are:
%%%
%%%
{error, already_started, NodeName}
- if the node with
%%% the given name is already started on a given host;{error, started_not_connected, NodeName}
- if node is
%%% started, but not connected to the master node.{error, not_alive, NodeName}
- if node on which the
%%% ct_slave:start/3
is called, is not alive. Note that
%%% NodeName
is the name of current node in this case.
Node
on
%%% the localhost.
stop(Node) ->
stop(gethostname(), Node).
%%% @spec stop(Host, Node) -> Result
%%% Host = atom()
%%% Node = atom()
%%% Result = {ok, NodeName} |
%%% {error, not_started, NodeName} |
%%% {error, not_connected, NodeName} |
%%% {error, stop_timeout, NodeName}
%%% NodeName = atom()
%%% @doc Stops the running Erlang node with name Node
on
%%% host Host
.
stop(Host, Node) ->
ENode = enodename(Host, Node),
case is_started(ENode) of
{true, connected}->
do_stop(ENode);
{true, not_connected}->
{error, not_connected, ENode};
false->
{error, not_started, ENode}
end.
%%% fetch an option value from the tagged tuple list with default
get_option_value(Key, OptionList, Default) ->
case lists:keyfind(Key, 1, OptionList) of
false->
Default;
{Key, Value}->
Value
end.
%%% convert option list to the option record, fill all defaults
fetch_options(Options) ->
UserName = get_option_value(username, Options, []),
Password = get_option_value(password, Options, []),
BootTimeout = get_option_value(boot_timeout, Options, 3),
InitTimeout = get_option_value(init_timeout, Options, 1),
StartupTimeout = get_option_value(startup_timeout, Options, 1),
StartupFunctions = get_option_value(startup_functions, Options, []),
Monitor = get_option_value(monitor_master, Options, false),
KillIfFail = get_option_value(kill_if_fail, Options, true),
ErlFlags = get_option_value(erl_flags, Options, []),
EnvVars = get_option_value(env, Options, []),
#options{username=UserName, password=Password,
boot_timeout=BootTimeout, init_timeout=InitTimeout,
startup_timeout=StartupTimeout, startup_functions=StartupFunctions,
monitor_master=Monitor, kill_if_fail=KillIfFail,
erl_flags=ErlFlags, env=EnvVars}.
% send a message when slave node is started
% @hidden
slave_started(ENode, MasterPid) ->
MasterPid ! {node_started, ENode},
ok.
% send a message when slave node has finished startup
% @hidden
slave_ready(ENode, MasterPid) ->
MasterPid ! {node_ready, ENode},
ok.
% start monitoring of the master node
% @hidden
monitor_master(MasterNode) ->
spawn(fun() -> monitor_master_int(MasterNode) end).
% code of the masterdeath-waiter process
monitor_master_int(MasterNode) ->
erlang:monitor_node(MasterNode, true),
receive
{nodedown, MasterNode}->
init:stop()
end.
% check if node is listed in the nodes()
is_connected(ENode) ->
[N||N<-nodes(), N==ENode] == [ENode].
% check if node is alive (ping and disconnect if pingable)
is_started(ENode) ->
case is_connected(ENode) of
true->
{true, connected};
false->
case net_adm:ping(ENode) of
pang->
false;
pong->
erlang:disconnect_node(ENode),
{true, not_connected}
end
end.
% make a Erlang node name from name and hostname
enodename(Host, Node) ->
list_to_atom(atom_to_list(Node)++"@"++atom_to_list(Host)).
% performs actual start of the "slave" node
do_start(Host, Node, Options) ->
ENode = enodename(Host, Node),
Functions =
lists:concat([[{ct_slave, slave_started, [ENode, self()]}],
Options#options.startup_functions,
[{ct_slave, slave_ready, [ENode, self()]}]]),
Functions2 = if
Options#options.monitor_master->
[{ct_slave, monitor_master, [node()]}|Functions];
true->
Functions
end,
MasterHost = gethostname(),
if
MasterHost == Host ->
spawn_local_node(Node, Options);
true->
spawn_remote_node(Host, Node, Options)
end,
BootTimeout = Options#options.boot_timeout,
InitTimeout = Options#options.init_timeout,
StartupTimeout = Options#options.startup_timeout,
Result = case wait_for_node_alive(ENode, BootTimeout) of
pong->
case test_server:is_cover() of
true ->
MainCoverNode = cover:get_main_node(),
rpc:call(MainCoverNode,cover,start,[ENode]);
false ->
ok
end,
call_functions(ENode, Functions2),
receive
{node_started, ENode}->
receive
{node_ready, ENode}->
{ok, ENode}
after StartupTimeout*1000->
{error, startup_timeout, ENode}
end
after InitTimeout*1000 ->
{error, init_timeout, ENode}
end;
pang->
{error, boot_timeout, ENode}
end,
case Result of
{ok, ENode}->
ok;
{error, Timeout, ENode}
when ((Timeout==init_timeout) or (Timeout==startup_timeout)) and
Options#options.kill_if_fail->
do_stop(ENode);
_-> ok
end,
Result.
% are we using fully qualified hostnames
long_or_short() ->
case net_kernel:longnames() of
true->
" -name ";
false->
" -sname "
end.
% get the localhost's name, depending on the using name policy
gethostname() ->
Hostname = case net_kernel:longnames() of
true->
net_adm:localhost();
_->
{ok, Name}=inet:gethostname(),
Name
end,
list_to_atom(Hostname).
% get cmd for starting Erlang
get_cmd(Node, Flags) ->
Cookie = erlang:get_cookie(),
"erl -detached -noinput -setcookie "++ atom_to_list(Cookie) ++
long_or_short() ++ atom_to_list(Node) ++ " " ++ Flags.
% spawn node locally
spawn_local_node(Node, Options) ->
#options{env=Env,erl_flags=ErlFlags} = Options,
Cmd = get_cmd(Node, ErlFlags),
open_port({spawn, Cmd}, [stream,{env,Env}]).
% start crypto and ssh if not yet started
check_for_ssh_running() ->
case application:get_application(crypto) of
undefined->
application:start(crypto),
case application:get_application(ssh) of
undefined->
application:start(ssh);
{ok, ssh}->
ok
end;
{ok, crypto}->
ok
end.
% spawn node remotely
spawn_remote_node(Host, Node, Options) ->
#options{username=Username,
password=Password,
erl_flags=ErlFlags,
env=Env} = Options,
SSHOptions = case {Username, Password} of
{[], []}->
[];
{_, []}->
[{user, Username}];
{_, _}->
[{user, Username}, {password, Password}]
end ++ [{silently_accept_hosts, true}],
check_for_ssh_running(),
{ok, SSHConnRef} = ssh:connect(atom_to_list(Host), 22, SSHOptions),
{ok, SSHChannelId} = ssh_connection:session_channel(SSHConnRef, infinity),
ssh_setenv(SSHConnRef, SSHChannelId, Env),
ssh_connection:exec(SSHConnRef, SSHChannelId, get_cmd(Node, ErlFlags), infinity).
ssh_setenv(SSHConnRef, SSHChannelId, [{Var, Value} | Vars])
when is_list(Var), is_list(Value) ->
success = ssh_connection:setenv(SSHConnRef, SSHChannelId,
Var, Value, infinity),
ssh_setenv(SSHConnRef, SSHChannelId, Vars);
ssh_setenv(_SSHConnRef, _SSHChannelId, []) -> ok.
% call functions on a remote Erlang node
call_functions(_Node, []) ->
ok;
call_functions(Node, [{M, F, A}|Functions]) ->
rpc:call(Node, M, F, A),
call_functions(Node, Functions).
% wait N seconds until node is pingable
wait_for_node_alive(_Node, 0) ->
pang;
wait_for_node_alive(Node, N) ->
timer:sleep(1000),
case net_adm:ping(Node) of
pong->
pong;
pang->
wait_for_node_alive(Node, N-1)
end.
% call init:stop on a remote node
do_stop(ENode) ->
{Cover,MainCoverNode} =
case test_server:is_cover() of
true ->
Main = cover:get_main_node(),
rpc:call(Main,cover,flush,[ENode]),
{true,Main};
false ->
{false,undefined}
end,
spawn(ENode, init, stop, []),
case wait_for_node_dead(ENode, 5) of
{ok,ENode} ->
if Cover ->
%% To avoid that cover is started again if a node
%% with the same name is started later.
rpc:call(MainCoverNode,cover,stop,[ENode]);
true ->
ok
end,
{ok,ENode};
Error ->
Error
end.
% wait N seconds until node is disconnected
wait_for_node_dead(Node, 0) ->
{error, stop_timeout, Node};
wait_for_node_dead(Node, N) ->
timer:sleep(1000),
case lists:member(Node, nodes()) of
true->
wait_for_node_dead(Node, N-1);
false->
{ok, Node}
end.