View Source Erlexec - OS Process Manager for the Erlang VM
Author Serge Aleynikov <saleyn(at)gmail.com>
summary
Summary
Execute and control OS processes from Erlang/OTP.
This project implements an Erlang application with a C++ port program that gives light-weight Erlang processes fine-grain control over execution of OS processes.
The following features are supported:
- Start/stop OS commands and get their OS process IDs, and termination reason (exit code, signal number, core dump status).
- Support OS commands with unicode characters.
- Manage/monitor externally started OS processes.
- Execute OS processes synchronously and asynchronously.
- Set OS command's working directory, environment, process group, effective user, process priority.
- Provide custom termination command for killing a process or relying on default SIGTERM/SIGKILL behavior.
- Specify custom timeout for SIGKILL after the termination command or SIGTERM was executed and the running OS child process is still alive.
- Link Erlang processes to OS processes (via intermediate Erlang Pids that are linked to an associated OS process), so that the termination of an OS process results in termination of an Erlang Pid, and vice versa.
- Monitor termination of OS processes using
erlang:monitor/2
. - Terminate all processes belonging to an OS process group.
- Kill processes belonging to an OS process group at process exit.
- Communicate with an OS process via its STDIN.
- Redirect STDOUT and STDERR of an OS process to a file, erlang process, or a custom function. When redirected to a file, the file can be open in append/truncate mode, and given at creation an access mask.
- Run interactive processes with psudo-terminal pty support.
- Support all RFC4254 pty psudo-terminal options defined in section-8 of the spec.
- Execute OS processes under different user credentials (using Linux capabilities).
- Perform proper cleanup of OS child processes at port program termination time.
This application provides significantly better control
over OS processes than built-in erlang:open_port/2
command with a
{spawn, Command}
option, and performs proper OS child process cleanup
when the emulator exits.
The erlexec
application has been in production use by Erlang and Elixir systems,
and is considered stable.
donations
Donations
If you find this project useful, please donate to:
- Bitcoin:
12pt8TcoMWMkF6iY66VJQk95ntdN4pFihg
- Ethereum:
0x268295486F258037CF53E504fcC1E67eba014218
supported-platforms
Supported Platforms
Linux, Solaris, FreeBSD, OpenBSD, MacOS X
documentation
DOCUMENTATION
See https://hexdocs.pm/erlexec/readme.html
usage
USAGE
erlang-import-as-a-dependency
Erlang: import as a dependency
Add dependency in
rebar.config
:{deps, [% ... {erlexec, "~> 2.0"} ]}.
Include in your
*.app.src
:{applications, [kernel, stdlib, % ... erlexec ]}
elixir-import-as-a-dependency
Elixir: import as a dependency
defp deps do
[
# ...
{:erlexec, "~> 2.0"}
]
end
building-from-source
BUILDING FROM SOURCE
Make sure you have rebar or rebar3 installed locally and the rebar script is in the path.
If you are deploying the application on Linux and would like to
take advantage of exec-port running tasks using effective user IDs
different from the real user ID that started exec-port, then
either make sure that libcap-dev[el] library is installed or make
sure that the user running the port program has sudo
rights.
OS-specific libcap-dev installation instructions:
- Fedora, CentOS: "yum install libcap-devel"
- Ubuntu: "apt-get install libcap-dev"
$ git clone git@github.com:saleyn/erlexec.git
$ make
# NOTE: for disabling optimized build of exec-port, do the following instead:
$ OPTIMIZE=0 make
By default port program's implementation uses poll(2)
call for event
demultiplexing. If you prefer to use select(2)
, set the following environment
variable:
$ USE_POLL=0 make
license
LICENSE
The program is distributed under BSD license.
Copyright (c) 2003 Serge Aleynikov
architecture
Architecture
*---------------------------*
| +----+ +----+ +----+ |
| |Pid1| |Pid2| |PidN| | Erlang light-weight Pids associated
| +----+ +----+ +----+ | one-to-one with managed OsPids
| \ | / |
| \ | / |
| \ | / (links) |
| +------+ |
| | exec | | Exec application running in Erlang VM
| +------+ |
| Erlang VM | |
*-------------+-------------*
|
+-----------+
| exec-port | Port program (separate OS process)
+-----------+
/ | \
(optional stdin/stdout/stderr pipes)
/ | \
+------+ +------+ +------+
|OsPid1| |OsPid2| |OsPidN| Managed Child OS processes
+------+ +------+ +------+
configuration-options
Configuration Options
See description of types in {@link exec:exec_options()}.
The exec-port
program requires the SHELL
variable to be set. If you are
running Erlang inside a docker container, you might need to ensure that SHELL
is properly set prior to starting the emulator.
examples
Examples
starting-stopping-an-os-process
Starting/stopping an OS process
1> exec:start(). % Start the port program.
{ok,<0.32.0>}
2> {ok, _, I} = exec:run_link("sleep 1000", []). % Run a shell command to sleep for 1000s.
{ok,<0.34.0>,23584}
3> exec:stop(I). % Kill the shell command.
ok % Note that this could also be accomplished
% by doing exec:stop(pid(0,34,0)).
In Elixir:
iex(1)> :exec.start
{:ok, #PID<0.112.0>}
iex(2)> :exec.run("echo ok", [:sync, :stdout])
{:ok, [stdout: ["ok\n"]]}
clearing-environment-or-unsetting-an-env-variable-of-the-child-process
Clearing environment or unsetting an env variable of the child process
%% Clear environment with {env, [clear]} option:
10> f(Bin), {ok, [{stdout, [Bin]}]} = exec:run("env", [sync, stdout, {env, [clear]}]), p(re:split(Bin, <<"\n">>)).
[<<"PWD=/home/...">>,<<"SHLVL=0">>, <<"_=/usr/bin/env">>,<<>>]
ok
%% Clear env and add a "TEST" env variable:
11> f(Bin), {ok, [{stdout, [Bin]}]} = exec:run("env", [sync, stdout, {env, [clear, {"TEST", "xxx"}]}]), p(re:split(Bin, <<"\n">>)).
[<<"PWD=/home/...">>,<<"SHLVL=0">>, <<"_=/usr/bin/env">>,<<"TEST=xxx">>,<<>>]
%% Unset an "EMU" env variable:
11> f(Bin), {ok, [{stdout, [Bin]}]} = exec:run("env", [sync, stdout, {env, [{"EMU", false}]}]), p(re:split(Bin, <<"\n">>)).
[...]
ok
running-exec-port-as-another-effective-user
Running exec-port as another effective user
In order to be able to use this feature the current user must either have sudo
rights or the exec-port
file must be owned by root
and have the SUID bit set
(use: chown root:root exec-port; chmod 4555 exec-port
):
$ ll priv/x86_64-unknown-linux-gnu/exec-port
-rwsr-xr-x 1 root root 777336 Dec 8 10:02 ./priv/x86_64-unknown-linux-gnu/exec-port
If the effective user doesn't have rights to access the exec-port
program in the real user's directory, then the exec-port
can be copied to some
shared location, which will be specified at startup using
{portexe, "/path/to/exec-port"}
.
$ cp $(find . -name exec-port) /tmp
$ chmod 755 /tmp/exec-port
$ whoami
serge
$ erl
1> exec:start([{user, "wheel"}, {portexe, "/tmp/exec-port"}]). % Start the port program as effective user "wheel".
{ok,<0.32.0>}
$ ps haxo user,comm | grep exec-port
wheel exec-port
allowing-exec-port-to-run-commands-as-other-effective-users
Allowing exec-port to run commands as other effective users
In order to be able to use this feature the current user must either have sudo
rights or the exec-port
file must have the SUID bit set, and the exec-port
file
must have the capabilities set as described in the "Build" section above.
The port program will initially be started as root
, and then it will
switch the effective user to {user, User}
and set process capabilities to
cap_setuid,cap_kill,cap_sys_nice
. After that it'll allow to run child programs
under effective users listed in the {limit_users, Users}
option.
$ whoami
serge
$ erl
1> Opts = [root, {user, "wheel"}, {limit_users, ["alex","guest"]}],
2> exec:start(Opts). % Start the port program as effective user "wheel"
% and allow it to execute commands as "alex" or "guest".
{ok,<0.32.0>}
3> exec:run("whoami", [sync, stdout, {user, "alex"}]). % Command is executed under effective user "alex"
{ok,[{stdout,[<<"alex\n">>]}]}
$ ps haxo user,comm | grep exec-port
wheel exec-port
running-the-port-program-as-root
Running the port program as root
While running the port program as root is highly discouraged, since it opens a security hole that gives users an ability to damage the system, for those who might need such an option, here is how to get it done (PROCEED AT YOUR OWN RISK!!!).
Note: in this case exec
would use sudo exec-port
to run it as root
or the exec-port
must have the SUID bit set (4555) and be owned by root
. The other (DANGEROUS and
firmly DISCOURAGED!!!) alternative is to run erl
as root
:
$ whoami
serge
# Make sure the exec-port can run as root:
$ sudo _build/default/lib/erlexec/priv/*/exec-port --whoami
root
$ erl
1> exec:start([root, {user, "root"}, {limit_users, ["root"]}]).
2> exec:run("whoami", [sync, stdout]).
{ok, [{stdout, [<<"root\n">>]}]}
$ ps haxo user,comm | grep exec-port
root exec-port
killing-an-os-process
Killing an OS process
Note that killing a process can be accomplished by running kill(3) command in an external shell, or by executing exec:kill/2.
1> f(I), {ok, _, I} = exec:run_link("sleep 1000", []).
{ok,<0.37.0>,2350}
2> exec:kill(I, 15).
ok
** exception error: {exit_status,15} % Our shell died because we linked to the
% killed shell process via exec:run_link/2.
3> exec:status(15). % Examine the exit status.
{signal,15,false} % The program got SIGTERM signal and produced
% no core file.
using-a-custom-success-return-code
Using a custom success return code
1> exec:start_link([]).
{ok,<0.35.0>}
2> exec:run_link("sleep 1", [{success_exit_code, 0}, sync]).
{ok,[]}
3> exec:run("sleep 1", [{success_exit_code, 1}, sync]).
{error,[{exit_status,1}]} % Note that the command returns exit code 1
redirecting-os-process-stdout-to-a-file
Redirecting OS process stdout to a file
7> f(I), {ok, _, I} = exec:run_link("for i in 1 2 3; do echo \"Test$i\"; done",
[{stdout, "/tmp/output"}]).
8> io:format("~s", [binary_to_list(element(2, file:read_file("/tmp/output")))]),
file:delete("/tmp/output").
Test1
Test2
Test3
ok
redirecting-os-process-stdout-to-screen-an-erlang-process-or-a-custom-function
Redirecting OS process stdout to screen, an Erlang process or a custom function
9> exec:run("echo Test", [{stdout, print}]).
{ok,<0.119.0>,29651}
Got stdout from 29651: <<"Test\n">>
10> exec:run("for i in 1 2 3; do sleep 1; echo \"Iter$i\"; done",
[{stdout, fun(S,OsPid,D) -> io:format("Got ~w from ~w: ~p\n", [S,OsPid,D]) end}]).
{ok,<0.121.0>,29652}
Got stdout from 29652: <<"Iter1\n">>
Got stdout from 29652: <<"Iter2\n">>
Got stdout from 29652: <<"Iter3\n">>
% Note that stdout/stderr options are equivanet to {stdout, self()}, {stderr, self()}
11> exec:run("echo Hello World!; echo ERR!! 1>&2", [stdout, stderr]).
{ok,<0.244.0>,18382}
12> flush().
Shell got {stdout,18382,<<"Hello World!\n">>}
Shell got {stderr,18382,<<"ERR!!\n">>}
ok
appending-os-process-stdout-to-a-file
Appending OS process stdout to a file
13> exec:run("for i in 1 2 3; do echo TEST$i; done",
[{stdout, "/tmp/out", [append, {mode, 8#600}]}, sync]),
file:read_file("/tmp/out").
{ok,<<"TEST1\nTEST2\nTEST3\n">>}
14> exec:run("echo Test4; done", [{stdout, "/tmp/out", [append, {mode, 8#600}]}, sync]),
file:read_file("/tmp/out").
{ok,<<"TEST1\nTEST2\nTEST3\nTest4\n">>}
15> file:delete("/tmp/out").
setting-up-a-monitor-for-the-os-process
Setting up a monitor for the OS process
> f(I), f(P), {ok, P, I} = exec:run("echo ok", [{stdout, self()}, monitor]).
{ok,<0.263.0>,18950}
16> flush().
Shell got {stdout,18950,<<"ok\n">>}
Shell got {'DOWN',18950,process,<0.263.0>,normal}
ok
managing-an-externally-started-os-process
Managing an externally started OS process
This command allows to instruct erlexec to begin monitoring given OS process and notify Erlang when the process exits. It is also able to send signals to the process and kill it.
% Start an externally managed OS process and retrieve its OS PID:
17> spawn(fun() -> os:cmd("echo $$ > /tmp/pid; sleep 15") end).
<0.330.0>
18> f(P), P = list_to_integer(lists:reverse(tl(lists:reverse(binary_to_list(element(2,
file:read_file("/tmp/pid"))))))).
19355
% Manage the process and get notified by a monitor when it exits:
19> exec:manage(P, [monitor]).
{ok,<0.334.0>,19355}
% Wait for monitor notification
20> f(M), receive M -> M end.
{'DOWN',19355,process,<0.334.0>,{exit_status,10}}
ok
21> file:delete("/tmp/pid").
ok
specifying-a-custom-process-shutdown-delay-in-seconds
Specifying a custom process shutdown delay in seconds
% Execute an OS process (script) that blocks SIGTERM with custom kill timeout, and monitor
22> f(I), {ok, _, I} = exec:run("trap '' SIGTERM; sleep 30", [{kill_timeout, 3}, monitor]).
{ok,<0.399.0>,26347}
% Attempt to stop the OS process
23> exec:stop(I).
ok
% Wait for its completion
24> f(M), receive M -> M after 10000 -> timeout end.
{'DOWN',26347,process,<0.403.0>,normal}
specifying-a-custom-kill-command-for-a-process
Specifying a custom kill command for a process
% Execute an OS process (script) that blocks SIGTERM, and uses a custom kill command,
% which kills it with a SIGINT. Add a monitor so that we can wait for process exit
% notification. Note the use of the special environment variable "CHILD_PID" by the
% kill command. This environment variable is set by the port program before invoking
% the kill command:
2> f(I), {ok, _, I} = exec:run("trap '' SIGTERM; sleep 30", [{kill, "kill -n 2 ${CHILD_PID}"},
{kill_timeout, 2}, monitor]).
{ok,<0.399.0>,26347}
% Try to kill by SIGTERM. This does nothing, since the process is blocking SIGTERM:
3> exec:kill(I, sigterm), f(M), receive M -> M after 0 -> timeout end.
timeout
% Attempt to stop the OS process
4> exec:stop(I).
ok
% Wait for its completion
5> f(M), receive M -> M after 1000 -> timeout end.
{'DOWN',26347,process,<0.403.0>,normal}
communicating-with-an-os-process-via-stdin
Communicating with an OS process via STDIN
% Execute an OS process (script) that reads STDIN and echoes it back to Erlang
25> f(I), {ok, _, I} = exec:run("read x; echo \"Got: $x\"", [stdin, stdout, monitor]).
{ok,<0.427.0>,26431}
% Send the OS process some data via its stdin
26> exec:send(I, <<"Test data\n">>).
ok
% Get the response written to processes stdout
27> f(M), receive M -> M after 10000 -> timeout end.
{stdout,26431,<<"Got: Test data\n">>}
% Confirm that the process exited
28> f(M), receive M -> M after 10000 -> timeout end.
{'DOWN',26431,process,<0.427.0>,normal}
communicating-with-an-os-process-via-stdin-and-sending-end-of-file
Communicating with an OS process via STDIN and sending end-of-file
2> Watcher = spawn(fun F() -> receive Msg -> io:format("Got: ~p\n", [Msg]), F() after 60000 -> ok end end).
<0.112.0>
3> f(Pid), f(OsPid), {ok, Pid, OsPid} = exec:run("tac", [stdin, {stdout, Watcher}, {stderr, Watcher}]).
{ok,<0.114.0>,26143}
4> exec:send(Pid, <<"foo\n">>).
ok
5> exec:send(Pid, <<"bar\n">>).
ok
6> exec:send(Pid, <<"baz\n">>).
ok
7> exec:send(Pid, eof).
ok
Got: {stdout,26143,<<"baz\nbar\nfoo\n">>}
running-os-commands-synchronously
Running OS commands synchronously
% Execute an shell script that blocks for 1 second and return its termination code
29> exec:run("sleep 1; echo Test", [sync]).
% By default all I/O is redirected to /dev/null, so no output is captured
{ok,[]}
% 'stdout' option instructs the port program to capture stdout and return it to caller
30> exec:run("sleep 1; echo Test", [stdout, sync]).
{ok,[{stdout, [<<"Test\n">>]}]}
% Execute a non-existing command
31> exec:run("echo1 Test", [sync, stdout, stderr]).
{error,[{exit_status,32512},
{stderr,[<<"/bin/bash: echo1: command not found\n">>]}]}
% Capture stdout/stderr of the executed command
32> exec:run("echo Test; echo Err 1>&2", [sync, stdout, stderr]).
{ok,[{stdout,[<<"Test\n">>]},{stderr,[<<"Err\n">>]}]}
% Redirect stderr to stdout
33> exec:run("echo Test 1>&2", [{stderr, stdout}, stdout, sync]).
{ok, [{stdout, [<<"Test\n">>]}]}
running-os-commands-with-without-shell
Running OS commands with/without shell
% Execute a command by an OS shell interpreter
34> exec:run("echo ok", [sync, stdout]).
{ok, [{stdout, [<<"ok\n">>]}]}
% Execute an executable without a shell (note that in this case
% the full path to the executable is required):
35> exec:run(["/bin/echo", "ok"], [sync, stdout])).
{ok, [{stdout, [<<"ok\n">>]}]}
% Execute a shell with custom options
36> exec:run(["/bin/bash", "-c", "echo ok"], [sync, stdout])).
{ok, [{stdout, [<<"ok\n">>]}]}
running-os-commands-with-pseudo-terminal-pty
Running OS commands with pseudo terminal (pty)
% Execute a command without a pty
37> exec:run("echo hello", [sync, stdout]).
{ok, [{stdout,[<<"hello\n">>]}]}
% Execute a command with a pty
38> exec:run("echo hello", [sync, stdout, pty]).
{ok,[{stdout,[<<"hello">>,<<"\r\n">>]}]}
% Execute a command with pty echo
39> {ok, P0, I0} = exec:run("cat", [stdin, stdout, {stderr, stdout}, pty, pty_echo]).
{ok,<0.162.0>,17086}
40> exec:send(I0, <<"hello">>).
ok
41> flush().
Shell got {stdout,17086,<<"hello">>}
ok
42> exec:send(I0, <<"\n">>).
ok
43> flush().
Shell got {stdout,17086,<<"\r\n">>}
Shell got {stdout,17086,<<"hello\r\n">>}
ok
44> exec:send(I, <<3>>).
ok
45> flush().
Shell got {stdout,17086,<<"^C">>}
Shell got {'DOWN',17086,process,<0.162.0>,{exit_status,2}}
ok
% Execute a command with custom pty options
46> {ok, P1, I1} = exec:run("cat", [stdin, stdout, {stderr, stdout}, {pty, [{vintr, 2}]}, monitor]).
{ok,<0.199.0>,16662}
47> exec:send(I1, <<3>>).
ok
48> flush().
ok
49> exec:send(I1, <<2>>).
ok
50> flush().
Shell got {'DOWN',16662,process,<0.199.0>,{exit_status,2}}
ok
kill-a-process-group-at-process-exit
Kill a process group at process exit
% In the following scenario the process P0 will create a new process group
% equal to the OS pid of that process (value = GID). The next two commands
% are assigned to the same process group GID. As soon as the P0 process exits
% P1 and P2 will also get terminated by signal 15 (SIGTERM):
51> {ok, P2, GID} = exec:run("sleep 10", [{group, 0}, kill_group]).
{ok,<0.37.0>,25306}
52> {ok, P3, _} = exec:run("sleep 15", [{group, GID}, monitor]).
{ok,<0.39.0>,25307}
53> {ok, P4, _} = exec:run("sleep 15", [{group, GID}, monitor]).
{ok,<0.41.0>,25308}
54> flush().
Shell got {'DOWN',25307,process,<0.39.0>,{exit_status,15}}
Shell got {'DOWN',25308,process,<0.41.0>,{exit_status,15}}
ok