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diff --git a/README.md b/README.md
index 7775a2a..b9872ca 100644
--- a/README.md
+++ b/README.md
@@ -1,94 +1,94 @@
# Exile
[![CI](https://github.com/akash-akya/exile/actions/workflows/ci.yaml/badge.svg)](https://github.com/akash-akya/exile/actions/workflows/ci.yaml)
[![Hex.pm](https://img.shields.io/hexpm/v/exile.svg)](https://hex.pm/packages/exile)
[![docs](https://img.shields.io/badge/docs-hexpm-blue.svg)](https://hexdocs.pm/exile/)
Exile is an alternative to [ports](https://hexdocs.pm/elixir/Port.html) for running external programs. It provides back-pressure, non-blocking io, and tries to fix ports issues.
Exile is built around the idea of having demand-driven, asynchronous interaction with external process. Think of streaming a video through `ffmpeg` to serve a web request. Exile internally uses NIF. See [Rationale](#rationale) for details. It also provides stream abstraction for interacting with an external program. For example, getting audio out of a stream is as simple as
``` elixir
-Exile.stream!(~w(ffmpeg -i pipe:0 -f mp3 pipe:1), input: File.stream!("music_video.mkv", [], 65535))
+Exile.stream!(~w(ffmpeg -i pipe:0 -f mp3 pipe:1), input: File.stream!("music_video.mkv", [], 65_535))
|> Stream.into(File.stream!("music.mp3"))
|> Stream.run()
```
See `Exile.stream!/2` module doc for more details about handling stderr and other options.
`Exile.stream!/2` is a convenience wrapper around `Exile.Process`. Prefer using `Exile.stream!` over using `Exile.Process` directly.
Exile requires OTP v22.1 and above.
Exile is based on NIF, please know consequence of that before using Exile. For basic use cases use [ExCmd](https://github.com/akash-akya/ex_cmd) instead.
## Installation
```elixir
def deps do
[
{:exile, "~> x.x.x"}
]
end
```
## Rationale
Existing approaches
#### Port
Port is the default way of executing external commands. This is okay when you have control over the external program's implementation and the interaction is minimal. Port has several important issues.
* it can end up creating [zombie process](https://hexdocs.pm/elixir/Port.html#module-zombie-operating-system-processes)
* cannot selectively close stdin. This is required when the external programs act on EOF from stdin
* it sends command output as a message to the beam process. This does not put back pressure on the external program and leads exhausting VM memory
#### Middleware based solutions
Libraries such as [Porcelain](https://github.com/alco/porcelain/), [Erlexec](https://github.com/saleyn/erlexec), [Rambo](https://github.com/jayjun/rambo), etc. solves the first two issues associated with ports - zombie process and selectively closing STDIN. But not the third issue - having back-pressure. At a high level, these libraries solve port issues by spawning an external middleware program which in turn spawns the program we want to run. Internally uses port for reading the output and writing input. Note that these libraries are solving a different subset of issues and have different functionality, please check the relevant project page for details.
* no back-pressure
* additional os process (middleware) for every execution of your program
* in few cases such as porcelain user has to install this external program explicitly
* might not be suitable when the program requires constant communication between beam process and external program
On the plus side, unlike Exile, bugs in the implementation does not bring down whole beam VM.
#### [ExCmd](https://github.com/akash-akya/ex_cmd)
This is my other stab at solving back pressure on the external program issue. It implements a demand-driven protocol using [odu](https://github.com/akash-akya/odu) to solve this. Since ExCmd is also a port based solution, concerns previously mentioned applies to ExCmd too.
## Exile
Internally Exile uses non-blocking asynchronous system calls to interact with the external process. It does not use port's message based communication instead does raw stdio using NIF. Uses asynchronous system calls for IO. Most of the system calls are non-blocking, so it should not block the beam schedulers. Makes use of dirty-schedulers for IO.
**Highlights**
* Back pressure
* no middleware program
* no additional os process. No performance/resource cost
* no need to install any external command
* tries to handle zombie process by attempting to clean up external process. *But* as there is no middleware involved with exile, so it is still possible to endup with zombie process if program misbehave.
* stream abstraction
* selectively consume stdout and stderr streams
If you are running executing huge number of external programs **concurrently** (more than few hundred) you might have to increase open file descriptors limit (`ulimit -n`)
Non-blocking io can be used for other interesting things. Such as reading named pipe (FIFO) files. `Exile.stream!(~w(cat data.pipe))` does not block schedulers, so you can open hundreds of fifo files unlike default `file` based io.
#### TODO
* add benchmarks results
### 🚨 Obligatory NIF warning
As with any NIF based solution, bugs or issues in Exile implementation **can bring down the beam VM**. But NIF implementation is comparatively small and mostly uses POSIX system calls. Also, spawned external processes are still completely isolated at OS level.
If all you want is to run a command with no communication, then just sticking with `System.cmd` is a better.
### License
Copyright (c) 2020 Akash Hiremath.
Exile source code is released under Apache License 2.0. Check [LICENSE](LICENSE.md) for more information.
diff --git a/lib/exile.ex b/lib/exile.ex
index f188554..e219435 100644
--- a/lib/exile.ex
+++ b/lib/exile.ex
@@ -1,105 +1,105 @@
defmodule Exile do
@moduledoc """
Exile is an alternative for beam ports with back-pressure and non-blocking IO
"""
use Application
@doc false
def start(_type, _args) do
opts = [
name: Exile.WatcherSupervisor,
strategy: :one_for_one
]
# we use DynamicSupervisor for cleaning up external processes on
# :init.stop or SIGTERM
DynamicSupervisor.start_link(opts)
end
@doc """
Runs the given command with arguments and return an Enumerable to read command output.
First parameter must be a list containing command with arguments. example: `["cat", "file.txt"]`.
### Options
* `input` - Input can be either an `Enumerable` or a function which accepts `Collectable`.
* Enumerable:
```
# List
Exile.stream!(~w(base64), input: ["hello", "world"]) |> Enum.to_list()
# Stream
- Exile.stream!(~w(cat), input: File.stream!("log.txt", [], 65536)) |> Enum.to_list()
+ Exile.stream!(~w(cat), input: File.stream!("log.txt", [], 65_536)) |> Enum.to_list()
```
* Collectable:
If the input in a function with arity 1, Exile will call that function with a `Collectable` as the argument. The function must *push* input to this collectable. Return value of the function is ignored.
```
Exile.stream!(~w(cat), input: fn sink -> Enum.into(1..100, sink, &to_string/1) end)
|> Enum.to_list()
```
By defaults no input will be given to the command
* `exit_timeout` - Duration to wait for external program to exit after completion before raising an error. Defaults to `:infinity`
- * `max_chunk_size` - Maximum size of each iodata chunk emitted by stream. Chunk size will be variable depending on the amount of data available at that time. Defaults to 65535
+ * `max_chunk_size` - Maximum size of each iodata chunk emitted by stream. Chunk size will be variable depending on the amount of data available at that time. Defaults to 65_535
* `use_stderr` - When set to true, stream will contain stderr output along with stdout output. Element of the stream will be of the form `{:stdout, iodata}` or `{:stderr, iodata}` to differentiate different streams. Defaults to false. See example below
All other options are passed to `Exile.Process.start_link/2`
### Examples
```
- Exile.stream!(~w(ffmpeg -i pipe:0 -f mp3 pipe:1), input: File.stream!("music_video.mkv", [], 65535))
+ Exile.stream!(~w(ffmpeg -i pipe:0 -f mp3 pipe:1), input: File.stream!("music_video.mkv", [], 65_535))
|> Stream.into(File.stream!("music.mp3"))
|> Stream.run()
```
Stream with stderr
```
Exile.stream!(~w(ffmpeg -i pipe:0 -f mp3 pipe:1),
- input: File.stream!("music_video.mkv", [], 65535),
+ input: File.stream!("music_video.mkv", [], 65_535),
use_stderr: true
)
|> Stream.transform(
fn ->
File.open!("music.mp3", [:write, :binary])
end,
fn elem, file ->
case elem do
{:stdout, data} ->
:ok = IO.binwrite(file, data)
{:stderr, msg} ->
:ok = IO.write(msg)
end
{[], file}
end,
fn file ->
:ok = File.close(file)
end
)
|> Stream.run()
```
"""
@type collectable_func() :: (Collectable.t() -> any())
@spec stream!(nonempty_list(String.t()),
input: Enum.t() | collectable_func(),
exit_timeout: timeout(),
max_chunk_size: pos_integer()
- ) :: ExCmd.Stream.t()
+ ) :: Exile.Stream.t()
def stream!(cmd_with_args, opts \\ []) do
Exile.Stream.__build__(cmd_with_args, opts)
end
end
diff --git a/lib/exile/process.ex b/lib/exile/process.ex
index a58aca3..1935b3d 100644
--- a/lib/exile/process.ex
+++ b/lib/exile/process.ex
@@ -1,669 +1,674 @@
defmodule Exile.Process do
@moduledoc """
GenServer which wraps spawned external command.
`Exile.stream!/1` should be preferred over using this. Use this only if you need more control over the life-cycle of IO streams and OS process.
## Comparison with Port
* it is demand driven. User explicitly has to `read` the command output, and the progress of the external command is controlled using OS pipes. Exile never load more output than we can consume, so we should never experience memory issues
* it can close stdin while consuming output
* tries to handle zombie process by attempting to cleanup external process. Note that there is no middleware involved with exile so it is still possible to endup with zombie process.
* selectively consume stdout and stderr streams
Internally Exile uses non-blocking asynchronous system calls to interact with the external process. It does not use port's message based communication, instead uses raw stdio and NIF. Uses asynchronous system calls for IO. Most of the system calls are non-blocking, so it should not block the beam schedulers. Make use of dirty-schedulers for IO
"""
use GenServer
alias __MODULE__
alias Exile.ProcessNif, as: Nif
require Logger
defstruct [
:args,
:errno,
:port,
:socket_path,
:stdin,
:stdout,
:stderr,
:status,
:use_stderr,
:await,
:read_stdout,
:read_stderr,
:read_any,
:write_stdin
]
defmodule Pending do
@moduledoc false
defstruct bin: [], size: 0, client_pid: nil
end
defmodule Error do
defexception [:message]
end
+ @type exit_status :: non_neg_integer
+
@default_opts [env: [], use_stderr: false]
- @default_buffer_size 65535
+ @default_buffer_size 65_535
@doc """
Starts `Exile.ProcessServer`
Starts external program using `cmd_with_args` with options `opts`
`cmd_with_args` must be a list containing command with arguments. example: `["cat", "file.txt"]`.
### Options
* `cd` - the directory to run the command in
* `env` - a list of tuples containing environment key-value. These can be accessed in the external program
* `use_stderr` - when set to true, exile connects stderr stream for the consumption. Defaults to false. Note that when set to true stderr must be consumed to avoid external program from blocking
"""
@type process :: pid
@spec start_link(nonempty_list(String.t()),
cd: String.t(),
env: [{String.t(), String.t()}],
use_stderr: boolean()
) :: {:ok, process} | {:error, any()}
def start_link(cmd_with_args, opts \\ []) do
opts = Keyword.merge(@default_opts, opts)
with {:ok, args} <- normalize_args(cmd_with_args, opts) do
GenServer.start(__MODULE__, args)
end
end
@doc """
Closes external program's input stream
"""
@spec close_stdin(process) :: :ok | {:error, any()}
def close_stdin(process) do
GenServer.call(process, :close_stdin, :infinity)
end
@doc """
Writes iodata `data` to program's input streams
This blocks when the pipe is full
"""
@spec write(process, binary) :: :ok | {:error, any()}
def write(process, iodata) do
GenServer.call(process, {:write_stdin, IO.iodata_to_binary(iodata)}, :infinity)
end
@doc """
Returns bytes from executed command's stdout stream with maximum size `max_size`.
Blocks if no bytes are written to stdout stream yet. And returns as soon as bytes are available
"""
@spec read(process, pos_integer()) :: {:ok, iodata} | :eof | {:error, any()}
def read(process, max_size \\ @default_buffer_size)
when is_integer(max_size) and max_size > 0 do
GenServer.call(process, {:read_stdout, max_size}, :infinity)
end
@doc """
Returns bytes from executed command's stderr stream with maximum size `max_size`.
Blocks if no bytes are written to stdout stream yet. And returns as soon as bytes are available
"""
@spec read_stderr(process, pos_integer()) :: {:ok, iodata} | :eof | {:error, any()}
def read_stderr(process, size \\ @default_buffer_size) when is_integer(size) and size > 0 do
GenServer.call(process, {:read_stderr, size}, :infinity)
end
@doc """
Returns bytes from either stdout or stderr stream with maximum size `max_size` whichever is available.
Blocks if no bytes are written to stdout/stderr stream yet. And returns as soon as bytes are available
"""
@spec read_any(process, pos_integer()) ::
{:ok, {:stdout, iodata}} | {:ok, {:stderr, iodata}} | :eof | {:error, any()}
def read_any(process, size \\ @default_buffer_size) when is_integer(size) and size > 0 do
GenServer.call(process, {:read_any, size}, :infinity)
end
@doc """
Sends signal to external program
"""
@spec kill(process, :sigkill | :sigterm) :: :ok
def kill(process, signal) when signal in [:sigkill, :sigterm] do
GenServer.call(process, {:kill, signal}, :infinity)
end
@doc """
Waits for the program to terminate.
- If the program terminates before timeout, it returns `{:ok, exit_status}` else returns `:timeout`
+ If the program terminates before timeout, it returns `{:ok, {:exit, exit_status}}` else returns `:timeout`
"""
- @spec await_exit(process, timeout: timeout()) :: {:ok, integer()} | :timeout
+ @spec await_exit(process, timeout :: timeout()) :: {:ok, {:exit, exit_status}} | :timeout
def await_exit(process, timeout \\ :infinity) do
GenServer.call(process, {:await_exit, timeout}, :infinity)
end
@doc """
Returns OS pid of the command
"""
@spec os_pid(process) :: pos_integer()
def os_pid(process) do
GenServer.call(process, :os_pid, :infinity)
end
@doc """
Stops the exile process, external program will be terminated in the background
"""
@spec stop(process) :: :ok
def stop(process), do: GenServer.call(process, :stop, :infinity)
## Server
def init(args) do
{use_stderr, args} = Map.pop(args, :use_stderr)
state = %__MODULE__{
args: args,
errno: nil,
status: :init,
await: %{},
use_stderr: use_stderr,
read_stdout: %Pending{},
read_stderr: %Pending{},
read_any: %Pending{},
write_stdin: %Pending{}
}
{:ok, state, {:continue, nil}}
end
def handle_continue(nil, state) do
Elixir.Process.flag(:trap_exit, true)
{:noreply, start_process(state)}
end
def handle_call(:stop, _from, state) do
# TODO: pending write and read should receive "stopped" return
# value instead of exit signal
{:stop, :normal, :ok, state}
end
def handle_call(:close_stdin, _from, state) do
case state.status do
{:exit, _} -> {:reply, :ok, state}
_ -> do_close(state, :stdin)
end
end
def handle_call({:await_exit, _}, _from, %{status: {:exit, status}} = state) do
{:reply, {:ok, {:exit, status}}, state}
end
def handle_call({:await_exit, timeout}, from, %{status: :start} = state) do
tref =
if timeout != :infinity do
Elixir.Process.send_after(self(), {:await_exit_timeout, from}, timeout)
else
nil
end
{:noreply, %Process{state | await: Map.put(state.await, from, tref)}}
end
def handle_call({:read_stdout, size}, from, state) do
case can_read?(state, :stdout) do
:ok ->
pending = %Pending{size: size, client_pid: from}
do_read_stdout(%Process{state | read_stdout: pending})
error ->
GenServer.reply(from, error)
{:noreply, state}
end
end
def handle_call({:read_stderr, size}, from, state) do
case can_read?(state, :stderr) do
:ok ->
pending = %Pending{size: size, client_pid: from}
do_read_stderr(%Process{state | read_stderr: pending})
error ->
GenServer.reply(from, error)
{:noreply, state}
end
end
def handle_call({:read_any, size}, from, state) do
case can_read?(state, :any) do
:ok ->
pending = %Pending{size: size, client_pid: from}
do_read_any(%Process{state | read_any: pending})
error ->
GenServer.reply(from, error)
{:noreply, state}
end
end
def handle_call(_, _from, %{status: {:exit, status}} = state) do
{:reply, {:error, {:exit, status}}, state}
end
def handle_call({:write_stdin, binary}, from, state) do
cond do
!is_binary(binary) ->
{:reply, {:error, :not_binary}, state}
state.write_stdin.client_pid ->
{:reply, {:error, :write_stdin}, state}
true ->
pending = %Pending{bin: binary, client_pid: from}
do_write(%Process{state | write_stdin: pending})
end
end
def handle_call(:os_pid, _from, state) do
case Port.info(state.port, :os_pid) do
{:os_pid, os_pid} ->
{:reply, {:ok, os_pid}, state}
- :undefined ->
+ nil ->
Logger.debug("Process not alive")
{:reply, :undefined, state}
end
end
def handle_call({:kill, signal}, _from, state) do
{:reply, signal(state.port, signal), state}
end
def handle_info({:await_exit_timeout, from}, state) do
GenServer.reply(from, :timeout)
{:noreply, %Process{state | await: Map.delete(state.await, from)}}
end
def handle_info({:select, _write_resource, _ref, :ready_output}, state), do: do_write(state)
def handle_info({:select, read_resource, _ref, :ready_input}, state) do
cond do
state.read_any.client_pid ->
stream =
cond do
read_resource == state.stdout -> :stdout
read_resource == state.stderr -> :stderr
end
do_read_any(state, stream)
state.read_stdout.client_pid && read_resource == state.stdout ->
do_read_stdout(state)
state.read_stderr.client_pid && read_resource == state.stderr ->
do_read_stderr(state)
true ->
{:noreply, state}
end
end
def handle_info({port, {:exit_status, exit_status}}, %{port: port} = state),
do: handle_port_exit(exit_status, state)
def handle_info({:EXIT, port, :normal}, %{port: port} = state), do: {:noreply, state}
def handle_info({:EXIT, _, reason}, state), do: {:stop, reason, state}
defp handle_port_exit(exit_status, state) do
Enum.each(state.await, fn {from, tref} ->
GenServer.reply(from, {:ok, {:exit, exit_status}})
if tref do
Elixir.Process.cancel_timer(tref)
end
end)
{:noreply, %Process{state | status: {:exit, exit_status}, await: %{}}}
end
defmacrop eof, do: {:ok, <<>>}
defmacrop eagain, do: {:error, :eagain}
defp do_write(%Process{write_stdin: %Pending{bin: <<>>}} = state) do
reply_action(state, :write_stdin, :ok)
end
defp do_write(%Process{write_stdin: pending} = state) do
bin_size = byte_size(pending.bin)
case Nif.nif_write(state.stdin, pending.bin) do
{:ok, size} when size < bin_size ->
binary = binary_part(pending.bin, size, bin_size - size)
noreply_action(%{state | write_stdin: %Pending{pending | bin: binary}})
{:ok, _size} ->
reply_action(state, :write_stdin, :ok)
eagain() ->
noreply_action(state)
{:error, errno} ->
reply_action(%Process{state | errno: errno}, :write_stdin, {:error, errno})
end
end
defp do_read_stdout(%Process{read_stdout: pending} = state) do
case Nif.nif_read(state.stdout, pending.size) do
eof() ->
reply_action(state, :read_stdout, :eof)
{:ok, binary} ->
reply_action(state, :read_stdout, {:ok, binary})
eagain() ->
noreply_action(state)
{:error, errno} ->
reply_action(%Process{state | errno: errno}, :read_stdout, {:error, errno})
end
end
defp do_read_stderr(%Process{read_stderr: pending} = state) do
case Nif.nif_read(state.stderr, pending.size) do
eof() ->
reply_action(state, :read_stderr, :eof)
{:ok, binary} ->
reply_action(state, :read_stderr, {:ok, binary})
eagain() ->
noreply_action(state)
{:error, errno} ->
reply_action(%Process{state | errno: errno}, :read_stderr, {:error, errno})
end
end
defp do_read_any(state, stream_hint \\ :stdout) do
%Process{read_any: pending, use_stderr: use_stderr} = state
other_stream =
case stream_hint do
:stdout -> :stderr
:stderr -> :stdout
end
case Nif.nif_read(stream_fd(state, stream_hint), pending.size) do
ret when ret in [eof(), eagain()] and use_stderr == true ->
case {ret, Nif.nif_read(stream_fd(state, other_stream), pending.size)} do
{eof(), eof()} ->
reply_action(state, :read_any, :eof)
{_, {:ok, binary}} ->
reply_action(state, :read_any, {:ok, {other_stream, binary}})
{_, eagain()} ->
noreply_action(state)
{_, {:error, errno}} ->
reply_action(%Process{state | errno: errno}, :read_any, {:error, errno})
end
eof() ->
reply_action(state, :read_any, :eof)
{:ok, binary} ->
reply_action(state, :read_any, {:ok, {stream_hint, binary}})
eagain() ->
noreply_action(state)
{:error, errno} ->
reply_action(%Process{state | errno: errno}, :read_any, {:error, errno})
end
end
defp do_close(state, stream) do
ret = Nif.nif_close(stream_fd(state, stream))
{:reply, ret, state}
end
defp stream_fd(state, stream) do
case stream do
:stdin -> state.stdin
:stdout -> state.stdout
:stderr -> state.stderr
end
end
defp can_read?(state, :stdout) do
cond do
state.read_stdout.client_pid ->
{:error, :pending_stdout_read}
true ->
:ok
end
end
defp can_read?(state, :stderr) do
cond do
!state.use_stderr ->
{:error, :cannot_read_stderr}
state.read_stderr.client_pid ->
{:error, :pending_stderr_read}
true ->
:ok
end
end
defp can_read?(state, :any) do
with :ok <- can_read?(state, :stdout) do
if state.use_stderr do
can_read?(state, :stderr)
else
:ok
end
end
end
defp signal(port, sig) when sig in [:sigkill, :sigterm] do
case Port.info(port, :os_pid) do
- {:os_pid, os_pid} -> Nif.nif_kill(os_pid, sig)
- :undefined -> {:error, :process_not_alive}
+ {:os_pid, os_pid} ->
+ Nif.nif_kill(os_pid, sig)
+
+ nil ->
+ {:error, :process_not_alive}
end
end
@spawner_path :filename.join(:code.priv_dir(:exile), "spawner")
defp start_process(state) do
%{args: %{cmd_with_args: cmd_with_args, cd: cd, env: env}, use_stderr: use_stderr} = state
socket_path = socket_path()
{:ok, sock} = :socket.open(:local, :stream, :default)
try do
:ok = socket_bind(sock, socket_path)
:ok = :socket.listen(sock)
spawner_cmdline_args = [socket_path, to_string(use_stderr) | cmd_with_args]
port_opts =
[:nouse_stdio, :exit_status, :binary, args: spawner_cmdline_args] ++
prune_nils(env: env, cd: cd)
port = Port.open({:spawn_executable, @spawner_path}, port_opts)
{:os_pid, os_pid} = Port.info(port, :os_pid)
Exile.Watcher.watch(self(), os_pid, socket_path)
{stdin, stdout, stderr} = receive_fds(sock, state.use_stderr)
%Process{
state
| port: port,
status: :start,
socket_path: socket_path,
stdin: stdin,
stdout: stdout,
stderr: stderr
}
after
:socket.close(sock)
end
end
@socket_timeout 2000
defp receive_fds(lsock, use_stderr) do
{:ok, sock} = :socket.accept(lsock, @socket_timeout)
try do
{:ok, msg} = :socket.recvmsg(sock, @socket_timeout)
%{ctrl: [%{data: data, level: :socket, type: :rights}]} = msg
<<stdin_fd::native-32, stdout_fd::native-32, stderr_fd::native-32, _::binary>> = data
{:ok, stdout} = Nif.nif_create_fd(stdout_fd)
{:ok, stdin} = Nif.nif_create_fd(stdin_fd)
{:ok, stderr} =
if use_stderr do
Nif.nif_create_fd(stderr_fd)
else
{:ok, nil}
end
{stdin, stdout, stderr}
after
:socket.close(sock)
end
end
defp socket_bind(sock, path) do
case :socket.bind(sock, %{family: :local, path: path}) do
:ok -> :ok
# for OTP version <= 24 compatibility
{:ok, _} -> :ok
other -> other
end
end
defp socket_path do
str = :crypto.strong_rand_bytes(16) |> Base.url_encode64() |> binary_part(0, 16)
path = Path.join(System.tmp_dir!(), str)
_ = :file.delete(path)
path
end
defp prune_nils(kv) do
Enum.reject(kv, fn {_, v} -> is_nil(v) end)
end
defp reply_action(state, action, return_value) do
pending = Map.fetch!(state, action)
:ok = GenServer.reply(pending.client_pid, return_value)
{:noreply, Map.put(state, action, %Pending{})}
end
defp noreply_action(state) do
{:noreply, state}
end
defp normalize_cmd(arg) do
case arg do
[cmd | _] when is_binary(cmd) ->
path = System.find_executable(cmd)
if path do
{:ok, to_charlist(path)}
else
{:error, "command not found: #{inspect(cmd)}"}
end
_ ->
{:error, "`cmd_with_args` must be a list of strings, Please check the documentation"}
end
end
defp normalize_cmd_args([_ | args]) do
if is_list(args) && Enum.all?(args, &is_binary/1) do
{:ok, Enum.map(args, &to_charlist/1)}
else
{:error, "command arguments must be list of strings. #{inspect(args)}"}
end
end
defp normalize_cd(cd) do
case cd do
nil ->
{:ok, ''}
cd when is_binary(cd) ->
if File.exists?(cd) && File.dir?(cd) do
{:ok, to_charlist(cd)}
else
{:error, "`:cd` must be valid directory path"}
end
_ ->
{:error, "`:cd` must be a binary string"}
end
end
defp normalize_env(env) do
case env do
nil ->
{:ok, []}
env when is_list(env) or is_map(env) ->
env =
Enum.map(env, fn {key, value} ->
{to_charlist(key), to_charlist(value)}
end)
{:ok, env}
_ ->
{:error, "`:env` must be a map or list of `{string, string}`"}
end
end
defp normalize_use_stderr(use_stderr) do
case use_stderr do
nil ->
{:ok, false}
use_stderr when is_boolean(use_stderr) ->
{:ok, use_stderr}
_ ->
{:error, ":use_stderr must be a boolean"}
end
end
defp validate_opts_fields(opts) do
{_, additional_opts} = Keyword.split(opts, [:cd, :env, :use_stderr])
if Enum.empty?(additional_opts) do
:ok
else
{:error, "invalid opts: #{inspect(additional_opts)}"}
end
end
defp normalize_args(cmd_with_args, opts) do
with {:ok, cmd} <- normalize_cmd(cmd_with_args),
{:ok, args} <- normalize_cmd_args(cmd_with_args),
:ok <- validate_opts_fields(opts),
{:ok, cd} <- normalize_cd(opts[:cd]),
{:ok, use_stderr} <- normalize_use_stderr(opts[:use_stderr]),
{:ok, env} <- normalize_env(opts[:env]) do
{:ok, %{cmd_with_args: [cmd | args], cd: cd, env: env, use_stderr: use_stderr}}
end
end
end
diff --git a/lib/exile/stream.ex b/lib/exile/stream.ex
index 9485572..0e672a6 100644
--- a/lib/exile/stream.ex
+++ b/lib/exile/stream.ex
@@ -1,205 +1,206 @@
defmodule Exile.Stream do
@moduledoc """
Defines a `Exile.Stream` struct returned by `Exile.stream!/2`.
"""
alias Exile.Process
alias Exile.Process.Error
defmodule Sink do
@moduledoc false
defstruct [:process]
defimpl Collectable do
def into(%{process: process} = stream) do
collector_fun = fn
:ok, {:cont, x} ->
:ok = Process.write(process, x)
:ok, :done ->
:ok = Process.close_stdin(process)
stream
:ok, :halt ->
:ok = Process.close_stdin(process)
end
{:ok, collector_fun}
end
end
end
defstruct [:process, :stream_opts]
@type t :: %__MODULE__{}
@doc false
+ @spec __build__(nonempty_list(String.t()), keyword()) :: t()
def __build__(cmd_with_args, opts) do
{stream_opts, process_opts} =
Keyword.split(opts, [:exit_timeout, :max_chunk_size, :input, :use_stderr])
- with {:ok, stream_opts} <- normalize_stream_opts(stream_opts) do
- process_opts = Keyword.put(process_opts, :use_stderr, stream_opts[:use_stderr])
- {:ok, process} = Process.start_link(cmd_with_args, process_opts)
- start_input_streamer(%Sink{process: process}, stream_opts.input)
- %Exile.Stream{process: process, stream_opts: stream_opts}
- else
- {:error, error} -> raise ArgumentError, message: error
+ case normalize_stream_opts(stream_opts) do
+ {:ok, stream_opts} ->
+ process_opts = Keyword.put(process_opts, :use_stderr, stream_opts[:use_stderr])
+ {:ok, process} = Process.start_link(cmd_with_args, process_opts)
+ start_input_streamer(%Sink{process: process}, stream_opts.input)
+ %Exile.Stream{process: process, stream_opts: stream_opts}
+
+ {:error, error} ->
+ raise ArgumentError, message: error
end
end
@doc false
defp start_input_streamer(sink, input) do
case input do
:no_input ->
:ok
{:enumerable, enum} ->
spawn_link(fn ->
Enum.into(enum, sink)
end)
{:collectable, func} ->
spawn_link(fn ->
func.(sink)
end)
end
end
defimpl Enumerable do
def reduce(arg, acc, fun) do
%{process: process, stream_opts: %{use_stderr: use_stderr} = stream_opts} = arg
start_fun = fn -> :normal end
next_fun = fn :normal ->
case Process.read_any(process, stream_opts.max_chunk_size) do
:eof ->
{:halt, :normal}
{:ok, {:stdout, x}} when use_stderr == false ->
{[IO.iodata_to_binary(x)], :normal}
{:ok, {stream, x}} when use_stderr == true ->
{[{stream, IO.iodata_to_binary(x)}], :normal}
{:error, errno} ->
raise Error, "Failed to read from the external process. errno: #{errno}"
end
end
after_fun = fn exit_type ->
try do
# always close stdin before stopping to give the command chance to exit properly
Process.close_stdin(process)
result = Process.await_exit(process, stream_opts.exit_timeout)
case {exit_type, result} do
{_, :timeout} ->
Process.kill(process, :sigkill)
raise Error, "command fail to exit within timeout: #{stream_opts[:exit_timeout]}"
{:normal, {:ok, {:exit, 0}}} ->
:ok
{:normal, {:ok, error}} ->
raise Error, "command exited with status: #{inspect(error)}"
{exit_type, error} ->
Process.kill(process, :sigkill)
raise Error, "command exited with exit_type: #{exit_type}, error: #{inspect(error)}"
end
after
Process.stop(process)
end
end
Stream.resource(start_fun, next_fun, after_fun).(acc, fun)
end
def count(_stream) do
{:error, __MODULE__}
end
def member?(_stream, _term) do
{:error, __MODULE__}
end
def slice(_stream) do
{:error, __MODULE__}
end
end
defp normalize_input(term) do
cond do
is_nil(term) ->
{:ok, :no_input}
!is_function(term) && Enumerable.impl_for(term) ->
{:ok, {:enumerable, term}}
is_function(term, 1) ->
{:ok, {:collectable, term}}
true ->
{:error, "`:input` must be either Enumerable or a function which accepts collectable"}
end
end
defp normalize_max_chunk_size(max_chunk_size) do
case max_chunk_size do
nil ->
- {:ok, 65536}
+ {:ok, 65_536}
max_chunk_size when is_integer(max_chunk_size) and max_chunk_size > 0 ->
{:ok, max_chunk_size}
_ ->
{:error, ":max_chunk_size must be a positive integer"}
end
end
defp normalize_exit_timeout(timeout) do
case timeout do
nil ->
{:ok, :infinity}
timeout when is_integer(timeout) and timeout > 0 ->
{:ok, timeout}
_ ->
{:error, ":exit_timeout must be either :infinity or an integer"}
end
end
defp normalize_use_stderr(use_stderr) do
case use_stderr do
nil ->
{:ok, false}
use_stderr when is_boolean(use_stderr) ->
{:ok, use_stderr}
_ ->
{:error, ":use_stderr must be a boolean"}
end
end
- defp normalize_stream_opts(opts) when is_list(opts) do
+ defp normalize_stream_opts(opts) do
with {:ok, input} <- normalize_input(opts[:input]),
{:ok, exit_timeout} <- normalize_exit_timeout(opts[:exit_timeout]),
{:ok, max_chunk_size} <- normalize_max_chunk_size(opts[:max_chunk_size]),
{:ok, use_stderr} <- normalize_use_stderr(opts[:use_stderr]) do
{:ok,
%{
input: input,
exit_timeout: exit_timeout,
max_chunk_size: max_chunk_size,
use_stderr: use_stderr
}}
end
end
-
- defp normalize_stream_opts(_), do: {:error, "stream_opts must be a keyword list"}
end
diff --git a/lib/exile/watcher.ex b/lib/exile/watcher.ex
index 7e7def9..12ce45e 100644
--- a/lib/exile/watcher.ex
+++ b/lib/exile/watcher.ex
@@ -1,79 +1,78 @@
defmodule Exile.Watcher do
@moduledoc false
use GenServer, restart: :temporary
require Logger
alias Exile.ProcessNif, as: Nif
def start_link(args) do
{:ok, _pid} = GenServer.start_link(__MODULE__, args)
end
def watch(pid, os_pid, socket_path) do
spec = {Exile.Watcher, %{pid: pid, os_pid: os_pid, socket_path: socket_path}}
DynamicSupervisor.start_child(Exile.WatcherSupervisor, spec)
end
def init(args) do
%{pid: pid, os_pid: os_pid, socket_path: socket_path} = args
Process.flag(:trap_exit, true)
ref = Elixir.Process.monitor(pid)
{:ok, %{pid: pid, os_pid: os_pid, socket_path: socket_path, ref: ref}}
end
def handle_info({:DOWN, ref, :process, pid, _reason}, %{
pid: pid,
socket_path: socket_path,
os_pid: os_pid,
ref: ref
}) do
File.rm!(socket_path)
attempt_graceful_exit(os_pid)
{:stop, :normal, nil}
end
def handle_info({:EXIT, _, reason}, nil), do: {:stop, reason, nil}
# when watcher is attempted to be killed, we forcefully kill external os process.
# This can happen when beam receive SIGTERM
def handle_info({:EXIT, _, reason}, %{pid: pid, socket_path: socket_path, os_pid: os_pid}) do
Logger.debug(fn -> "Watcher exiting. reason: #{inspect(reason)}" end)
File.rm!(socket_path)
Exile.Process.stop(pid)
attempt_graceful_exit(os_pid)
{:stop, reason, nil}
end
defp attempt_graceful_exit(os_pid) do
- try do
- Logger.debug(fn -> "Stopping external program" end)
+ Logger.debug(fn -> "Stopping external program" end)
- # at max we wait for 100ms for program to exit
- process_exit?(os_pid, 100) && throw(:done)
+ # at max we wait for 100ms for program to exit
+ process_exit?(os_pid, 100) && throw(:done)
- Logger.debug("Failed to stop external program gracefully. attempting SIGTERM")
- Nif.nif_kill(os_pid, :sigterm)
- process_exit?(os_pid, 100) && throw(:done)
+ Logger.debug("Failed to stop external program gracefully. attempting SIGTERM")
+ Nif.nif_kill(os_pid, :sigterm)
+ process_exit?(os_pid, 100) && throw(:done)
- Logger.debug("Failed to stop external program with SIGTERM. attempting SIGKILL")
- Nif.nif_kill(os_pid, :sigkill)
- process_exit?(os_pid, 200) && throw(:done)
+ Logger.debug("Failed to stop external program with SIGTERM. attempting SIGKILL")
+ Nif.nif_kill(os_pid, :sigkill)
+ process_exit?(os_pid, 200) && throw(:done)
- Logger.error("failed to kill external process")
- raise "Failed to kill external process"
- catch
- :done -> Logger.debug(fn -> "External program exited successfully" end)
- end
+ Logger.error("failed to kill external process")
+ raise "Failed to kill external process"
+ catch
+ :done ->
+ Logger.debug(fn -> "External program exited successfully" end)
end
defp process_exit?(os_pid), do: !Nif.nif_is_os_pid_alive(os_pid)
defp process_exit?(os_pid, timeout) do
if process_exit?(os_pid) do
true
else
:timer.sleep(timeout)
process_exit?(os_pid)
end
end
end
diff --git a/mix.exs b/mix.exs
index 104da11..26bc97f 100644
--- a/mix.exs
+++ b/mix.exs
@@ -1,63 +1,64 @@
defmodule Exile.MixProject do
use Mix.Project
@version "0.1.0"
@scm_url "https://github.com/akash-akya/exile"
def project do
[
app: :exile,
version: @version,
elixir: "~> 1.7",
start_permanent: Mix.env() == :prod,
compilers: [:elixir_make] ++ Mix.compilers(),
make_targets: ["all"],
make_clean: ["clean"],
deps: deps(),
# Package
package: package(),
description: description(),
# Docs
source_url: @scm_url,
homepage_url: @scm_url,
docs: [
main: "readme",
source_ref: "v#{@version}",
extras: ["README.md", "LICENSE.md"]
]
]
end
def application do
[
mod: {Exile, []},
extra_applications: [:logger, :crypto]
]
end
defp description do
"NIF based solution to interact with external programs with back-pressure"
end
defp package do
[
maintainers: ["Akash Hiremath"],
licenses: ["Apache-2.0"],
files: ~w(lib .formatter.exs mix.exs README* LICENSE* Makefile c_src/*.{h,c}),
links: %{GitHub: @scm_url}
]
end
defp deps do
[
{:elixir_make, "~> 0.6", runtime: false},
# development & test
{:credo, "~> 1.6", only: [:dev, :test], runtime: false},
{:ex_doc, ">= 0.0.0", only: :dev},
- {:excoveralls, "~> 0.15", only: :test}
+ {:excoveralls, "~> 0.15", only: :test},
+ {:dialyxir, "~> 1.0", only: [:dev], runtime: false}
]
end
end
diff --git a/mix.lock b/mix.lock
index ea849b1..521ee50 100644
--- a/mix.lock
+++ b/mix.lock
@@ -1,22 +1,24 @@
%{
"bunt": {:hex, :bunt, "0.2.1", "e2d4792f7bc0ced7583ab54922808919518d0e57ee162901a16a1b6664ef3b14", [:mix], [], "hexpm", "a330bfb4245239787b15005e66ae6845c9cd524a288f0d141c148b02603777a5"},
"certifi": {:hex, :certifi, "2.9.0", "6f2a475689dd47f19fb74334859d460a2dc4e3252a3324bd2111b8f0429e7e21", [:rebar3], [], "hexpm", "266da46bdb06d6c6d35fde799bcb28d36d985d424ad7c08b5bb48f5b5cdd4641"},
"credo": {:hex, :credo, "1.7.0", "6119bee47272e85995598ee04f2ebbed3e947678dee048d10b5feca139435f75", [:mix], [{:bunt, "~> 0.2.1", [hex: :bunt, repo: "hexpm", optional: false]}, {:file_system, "~> 0.2.8", [hex: :file_system, repo: "hexpm", optional: false]}, {:jason, "~> 1.0", [hex: :jason, repo: "hexpm", optional: false]}], "hexpm", "6839fcf63d1f0d1c0f450abc8564a57c43d644077ab96f2934563e68b8a769d7"},
+ "dialyxir": {:hex, :dialyxir, "1.2.0", "58344b3e87c2e7095304c81a9ae65cb68b613e28340690dfe1a5597fd08dec37", [:mix], [{:erlex, ">= 0.2.6", [hex: :erlex, repo: "hexpm", optional: false]}], "hexpm", "61072136427a851674cab81762be4dbeae7679f85b1272b6d25c3a839aff8463"},
"earmark_parser": {:hex, :earmark_parser, "1.4.31", "a93921cdc6b9b869f519213d5bc79d9e218ba768d7270d46fdcf1c01bacff9e2", [:mix], [], "hexpm", "317d367ee0335ef037a87e46c91a2269fef6306413f731e8ec11fc45a7efd059"},
"elixir_make": {:hex, :elixir_make, "0.7.6", "67716309dc5d43e16b5abbd00c01b8df6a0c2ab54a8f595468035a50189f9169", [:mix], [{:castore, "~> 0.1 or ~> 1.0", [hex: :castore, repo: "hexpm", optional: true]}], "hexpm", "5a0569756b0f7873a77687800c164cca6dfc03a09418e6fcf853d78991f49940"},
+ "erlex": {:hex, :erlex, "0.2.6", "c7987d15e899c7a2f34f5420d2a2ea0d659682c06ac607572df55a43753aa12e", [:mix], [], "hexpm", "2ed2e25711feb44d52b17d2780eabf998452f6efda104877a3881c2f8c0c0c75"},
"ex_doc": {:hex, :ex_doc, "0.29.3", "f07444bcafb302db86e4f02d8bbcd82f2e881a0dcf4f3e4740e4b8128b9353f7", [:mix], [{:earmark_parser, "~> 1.4.31", [hex: :earmark_parser, repo: "hexpm", optional: false]}, {:makeup_elixir, "~> 0.14", [hex: :makeup_elixir, repo: "hexpm", optional: false]}, {:makeup_erlang, "~> 0.1", [hex: :makeup_erlang, repo: "hexpm", optional: false]}], "hexpm", "3dc6787d7b08801ec3b51e9bd26be5e8826fbf1a17e92d1ebc252e1a1c75bfe1"},
"excoveralls": {:hex, :excoveralls, "0.16.1", "0bd42ed05c7d2f4d180331a20113ec537be509da31fed5c8f7047ce59ee5a7c5", [:mix], [{:hackney, "~> 1.16", [hex: :hackney, repo: "hexpm", optional: false]}, {:jason, "~> 1.0", [hex: :jason, repo: "hexpm", optional: false]}], "hexpm", "dae763468e2008cf7075a64cb1249c97cb4bc71e236c5c2b5e5cdf1cfa2bf138"},
"file_system": {:hex, :file_system, "0.2.10", "fb082005a9cd1711c05b5248710f8826b02d7d1784e7c3451f9c1231d4fc162d", [:mix], [], "hexpm", "41195edbfb562a593726eda3b3e8b103a309b733ad25f3d642ba49696bf715dc"},
"hackney": {:hex, :hackney, "1.18.1", "f48bf88f521f2a229fc7bae88cf4f85adc9cd9bcf23b5dc8eb6a1788c662c4f6", [:rebar3], [{:certifi, "~> 2.9.0", [hex: :certifi, repo: "hexpm", optional: false]}, {:idna, "~> 6.1.0", [hex: :idna, repo: "hexpm", optional: false]}, {:metrics, "~> 1.0.0", [hex: :metrics, repo: "hexpm", optional: false]}, {:mimerl, "~> 1.1", [hex: :mimerl, repo: "hexpm", optional: false]}, {:parse_trans, "3.3.1", [hex: :parse_trans, repo: "hexpm", optional: false]}, {:ssl_verify_fun, "~> 1.1.0", [hex: :ssl_verify_fun, repo: "hexpm", optional: false]}, {:unicode_util_compat, "~> 0.7.0", [hex: :unicode_util_compat, repo: "hexpm", optional: false]}], "hexpm", "a4ecdaff44297e9b5894ae499e9a070ea1888c84afdd1fd9b7b2bc384950128e"},
"idna": {:hex, :idna, "6.1.1", "8a63070e9f7d0c62eb9d9fcb360a7de382448200fbbd1b106cc96d3d8099df8d", [:rebar3], [{:unicode_util_compat, "~> 0.7.0", [hex: :unicode_util_compat, repo: "hexpm", optional: false]}], "hexpm", "92376eb7894412ed19ac475e4a86f7b413c1b9fbb5bd16dccd57934157944cea"},
"jason": {:hex, :jason, "1.4.0", "e855647bc964a44e2f67df589ccf49105ae039d4179db7f6271dfd3843dc27e6", [:mix], [{:decimal, "~> 1.0 or ~> 2.0", [hex: :decimal, repo: "hexpm", optional: true]}], "hexpm", "79a3791085b2a0f743ca04cec0f7be26443738779d09302e01318f97bdb82121"},
"makeup": {:hex, :makeup, "1.1.0", "6b67c8bc2882a6b6a445859952a602afc1a41c2e08379ca057c0f525366fc3ca", [:mix], [{:nimble_parsec, "~> 1.2.2 or ~> 1.3", [hex: :nimble_parsec, repo: "hexpm", optional: false]}], "hexpm", "0a45ed501f4a8897f580eabf99a2e5234ea3e75a4373c8a52824f6e873be57a6"},
"makeup_elixir": {:hex, :makeup_elixir, "0.16.0", "f8c570a0d33f8039513fbccaf7108c5d750f47d8defd44088371191b76492b0b", [:mix], [{:makeup, "~> 1.0", [hex: :makeup, repo: "hexpm", optional: false]}, {:nimble_parsec, "~> 1.2.3", [hex: :nimble_parsec, repo: "hexpm", optional: false]}], "hexpm", "28b2cbdc13960a46ae9a8858c4bebdec3c9a6d7b4b9e7f4ed1502f8159f338e7"},
"makeup_erlang": {:hex, :makeup_erlang, "0.1.1", "3fcb7f09eb9d98dc4d208f49cc955a34218fc41ff6b84df7c75b3e6e533cc65f", [:mix], [{:makeup, "~> 1.0", [hex: :makeup, repo: "hexpm", optional: false]}], "hexpm", "174d0809e98a4ef0b3309256cbf97101c6ec01c4ab0b23e926a9e17df2077cbb"},
"metrics": {:hex, :metrics, "1.0.1", "25f094dea2cda98213cecc3aeff09e940299d950904393b2a29d191c346a8486", [:rebar3], [], "hexpm", "69b09adddc4f74a40716ae54d140f93beb0fb8978d8636eaded0c31b6f099f16"},
"mimerl": {:hex, :mimerl, "1.2.0", "67e2d3f571088d5cfd3e550c383094b47159f3eee8ffa08e64106cdf5e981be3", [:rebar3], [], "hexpm", "f278585650aa581986264638ebf698f8bb19df297f66ad91b18910dfc6e19323"},
"nimble_parsec": {:hex, :nimble_parsec, "1.2.3", "244836e6e3f1200c7f30cb56733fd808744eca61fd182f731eac4af635cc6d0b", [:mix], [], "hexpm", "c8d789e39b9131acf7b99291e93dae60ab48ef14a7ee9d58c6964f59efb570b0"},
"parse_trans": {:hex, :parse_trans, "3.3.1", "16328ab840cc09919bd10dab29e431da3af9e9e7e7e6f0089dd5a2d2820011d8", [:rebar3], [], "hexpm", "07cd9577885f56362d414e8c4c4e6bdf10d43a8767abb92d24cbe8b24c54888b"},
"ssl_verify_fun": {:hex, :ssl_verify_fun, "1.1.6", "cf344f5692c82d2cd7554f5ec8fd961548d4fd09e7d22f5b62482e5aeaebd4b0", [:make, :mix, :rebar3], [], "hexpm", "bdb0d2471f453c88ff3908e7686f86f9be327d065cc1ec16fa4540197ea04680"},
"unicode_util_compat": {:hex, :unicode_util_compat, "0.7.0", "bc84380c9ab48177092f43ac89e4dfa2c6d62b40b8bd132b1059ecc7232f9a78", [:rebar3], [], "hexpm", "25eee6d67df61960cf6a794239566599b09e17e668d3700247bc498638152521"},
}
diff --git a/test/exile/process_test.exs b/test/exile/process_test.exs
index d079ec0..c34880a 100644
--- a/test/exile/process_test.exs
+++ b/test/exile/process_test.exs
@@ -1,410 +1,410 @@
defmodule Exile.ProcessTest do
use ExUnit.Case, async: true
alias Exile.Process
test "read" do
{:ok, s} = Process.start_link(~w(echo test))
assert {:ok, iodata} = Process.read(s, 100)
assert :eof = Process.read(s, 100)
assert IO.iodata_to_binary(iodata) == "test\n"
assert :ok == Process.close_stdin(s)
assert {:ok, {:exit, 0}} == Process.await_exit(s, 500)
Process.stop(s)
end
test "write" do
{:ok, s} = Process.start_link(~w(cat))
assert :ok == Process.write(s, "hello")
assert {:ok, iodata} = Process.read(s, 5)
assert IO.iodata_to_binary(iodata) == "hello"
assert :ok == Process.write(s, "world")
assert {:ok, iodata} = Process.read(s, 5)
assert IO.iodata_to_binary(iodata) == "world"
assert :ok == Process.close_stdin(s)
assert :eof == Process.read(s)
assert {:ok, {:exit, 0}} == Process.await_exit(s, 100)
Process.stop(s)
end
test "stdin close" do
logger = start_events_collector()
# base64 produces output only after getting EOF from stdin. we
# collect events in order and assert that we can still read from
# stdout even after closing stdin
{:ok, s} = Process.start_link(~w(base64))
# parallel reader should be blocked till we close stdin
start_parallel_reader(s, logger)
:timer.sleep(100)
assert :ok == Process.write(s, "hello")
add_event(logger, {:write, "hello"})
assert :ok == Process.write(s, "world")
add_event(logger, {:write, "world"})
:timer.sleep(100)
assert :ok == Process.close_stdin(s)
add_event(logger, :input_close)
assert {:ok, {:exit, 0}} == Process.await_exit(s, 100)
Process.stop(s)
assert [
{:write, "hello"},
{:write, "world"},
:input_close,
{:read, "aGVsbG93b3JsZA==\n"},
:eof
] == get_events(logger)
end
test "external command termination on stop" do
{:ok, s} = Process.start_link(~w(cat))
{:ok, os_pid} = Process.os_pid(s)
assert os_process_alive?(os_pid)
Process.stop(s)
:timer.sleep(100)
refute os_process_alive?(os_pid)
end
test "external command kill on stop" do
{:ok, s} = Process.start_link([fixture("ignore_sigterm.sh")])
{:ok, os_pid} = Process.os_pid(s)
assert os_process_alive?(os_pid)
Process.stop(s)
if os_process_alive?(os_pid) do
:timer.sleep(1000)
refute os_process_alive?(os_pid)
else
:ok
end
end
test "exit status" do
{:ok, s} = Process.start_link(["sh", "-c", "exit 10"])
assert {:ok, {:exit, 10}} == Process.await_exit(s, 500)
Process.stop(s)
end
test "writing binary larger than pipe buffer size" do
- large_bin = generate_binary(5 * 65535)
+ large_bin = generate_binary(5 * 65_535)
{:ok, s} = Process.start_link(~w(cat))
writer =
Task.async(fn ->
Process.write(s, large_bin)
Process.close_stdin(s)
end)
:timer.sleep(100)
iodata =
Stream.unfold(nil, fn _ ->
case Process.read(s) do
{:ok, data} -> {data, nil}
:eof -> nil
end
end)
|> Enum.to_list()
Task.await(writer)
- assert IO.iodata_length(iodata) == 5 * 65535
+ assert IO.iodata_length(iodata) == 5 * 65_535
assert {:ok, {:exit, 0}} == Process.await_exit(s, 500)
Process.stop(s)
end
test "stderr_read" do
{:ok, s} = Process.start_link(["sh", "-c", "echo foo >>/dev/stderr"], use_stderr: true)
assert {:ok, "foo\n"} = Process.read_stderr(s, 100)
Process.stop(s)
end
test "stderr_read with stderr disabled" do
{:ok, s} = Process.start_link(["sh", "-c", "echo foo >>/dev/stderr"], use_stderr: false)
assert {:error, :cannot_read_stderr} = Process.read_stderr(s, 100)
Process.stop(s)
end
test "read_any" do
script = """
echo "foo"
echo "bar" >&2
"""
{:ok, s} = Process.start_link(["sh", "-c", script], use_stderr: true)
{:ok, ret1} = Process.read_any(s, 100)
{:ok, ret2} = Process.read_any(s, 100)
assert {:stderr, "bar\n"} in [ret1, ret2]
assert {:stdout, "foo\n"} in [ret1, ret2]
assert :eof = Process.read_any(s, 100)
Process.stop(s)
end
test "read_any with stderr disabled" do
script = """
echo "foo"
echo "bar" >&2
"""
{:ok, s} = Process.start_link(["sh", "-c", script], use_stderr: false)
{:ok, ret1} = Process.read_any(s, 100)
assert ret1 == {:stdout, "foo\n"}
assert :eof = Process.read_any(s, 100)
Process.stop(s)
end
test "back-pressure" do
logger = start_events_collector()
# we test backpressure by testing if `write` is delayed when we delay read
{:ok, s} = Process.start_link(~w(cat))
- large_bin = generate_binary(65535 * 5)
+ large_bin = generate_binary(65_535 * 5)
writer =
Task.async(fn ->
:ok = Process.write(s, large_bin)
add_event(logger, {:write, IO.iodata_length(large_bin)})
Process.close_stdin(s)
end)
:timer.sleep(50)
reader =
Task.async(fn ->
Stream.unfold(nil, fn _ ->
case Process.read(s) do
{:ok, data} ->
add_event(logger, {:read, IO.iodata_length(data)})
# delay in reading should delay writes
:timer.sleep(10)
{nil, nil}
:eof ->
nil
end
end)
|> Stream.run()
end)
Task.await(writer)
Task.await(reader)
assert {:ok, {:exit, 0}} == Process.await_exit(s, 500)
Process.stop(s)
events = get_events(logger)
{write_events, read_evants} = Enum.split_with(events, &match?({:write, _}, &1))
assert Enum.sum(Enum.map(read_evants, fn {:read, size} -> size end)) ==
Enum.sum(Enum.map(write_events, fn {:write, size} -> size end))
# There must be a read before write completes
- assert hd(events) == {:read, 65535}
+ assert hd(events) == {:read, 65_535}
end
# this test does not work properly in linux
@tag :skip
test "if we are leaking file descriptor" do
{:ok, s} = Process.start_link(~w(sleep 60))
{:ok, os_pid} = Process.os_pid(s)
# we are only printing FD, TYPE, NAME with respective prefix
{bin, 0} = System.cmd("lsof", ["-F", "ftn", "-p", to_string(os_pid)])
Process.stop(s)
open_files = parse_lsof(bin)
assert [%{fd: "0", name: _, type: "PIPE"}, %{type: "PIPE", fd: "1", name: _}] = open_files
end
test "process kill with pending write" do
{:ok, s} = Process.start_link(~w(cat))
{:ok, os_pid} = Process.os_pid(s)
large_data =
Stream.cycle(["test"]) |> Stream.take(500_000) |> Enum.to_list() |> IO.iodata_to_binary()
task =
Task.async(fn ->
try do
Process.write(s, large_data)
catch
:exit, reason -> reason
end
end)
:timer.sleep(200)
Process.stop(s)
:timer.sleep(3000)
refute os_process_alive?(os_pid)
assert {:normal, _} = Task.await(task)
end
test "concurrent read" do
{:ok, s} = Process.start_link(~w(cat))
task = Task.async(fn -> Process.read(s, 1) end)
# delaying concurrent read to avoid race-condition
Elixir.Process.sleep(100)
assert {:error, :pending_stdout_read} = Process.read(s, 1)
assert :ok == Process.close_stdin(s)
assert {:ok, {:exit, 0}} == Process.await_exit(s, 100)
Process.stop(s)
_ = Task.await(task)
end
test "cd" do
parent = Path.expand("..", File.cwd!())
{:ok, s} = Process.start_link(~w(sh -c pwd), cd: parent)
{:ok, dir} = Process.read(s)
assert String.trim(dir) == parent
assert {:ok, {:exit, 0}} = Process.await_exit(s)
Process.stop(s)
end
test "invalid path" do
assert {:error, _} = Process.start_link(~w(sh -c pwd), cd: "invalid")
end
test "invalid opt" do
assert {:error, "invalid opts: [invalid: :test]"} =
Process.start_link(~w(cat), invalid: :test)
end
test "env" do
assert {:ok, s} = Process.start_link(~w(printenv TEST_ENV), env: %{"TEST_ENV" => "test"})
assert {:ok, "test\n"} = Process.read(s)
assert {:ok, {:exit, 0}} = Process.await_exit(s)
Process.stop(s)
end
test "if external process inherits beam env" do
:ok = System.put_env([{"BEAM_ENV_A", "10"}])
assert {:ok, s} = Process.start_link(~w(printenv BEAM_ENV_A))
assert {:ok, "10\n"} = Process.read(s)
assert {:ok, {:exit, 0}} = Process.await_exit(s)
Process.stop(s)
end
test "if user env overrides beam env" do
:ok = System.put_env([{"BEAM_ENV", "base"}])
assert {:ok, s} =
Process.start_link(~w(printenv BEAM_ENV), env: %{"BEAM_ENV" => "overridden"})
assert {:ok, "overridden\n"} = Process.read(s)
assert {:ok, {:exit, 0}} = Process.await_exit(s)
Process.stop(s)
end
test "await_exit when process is stopped" do
assert {:ok, s} = Process.start_link(~w(cat))
tasks =
Enum.map(1..10, fn _ ->
Task.async(fn -> Process.await_exit(s) end)
end)
assert :ok == Process.close_stdin(s)
Elixir.Process.sleep(100)
Enum.each(tasks, fn task ->
assert {:ok, {:exit, 0}} = Task.await(task)
end)
Process.stop(s)
end
def start_parallel_reader(proc_server, logger) do
spawn_link(fn -> reader_loop(proc_server, logger) end)
end
def reader_loop(proc_server, logger) do
case Process.read(proc_server) do
{:ok, data} ->
add_event(logger, {:read, data})
reader_loop(proc_server, logger)
:eof ->
add_event(logger, :eof)
end
end
def start_events_collector do
{:ok, ordered_events} = Agent.start(fn -> [] end)
ordered_events
end
def add_event(agent, event) do
:ok = Agent.update(agent, fn events -> events ++ [event] end)
end
def get_events(agent) do
Agent.get(agent, & &1)
end
defp os_process_alive?(pid) do
match?({_, 0}, System.cmd("ps", ["-p", to_string(pid)]))
end
defp fixture(script) do
Path.join([__DIR__, "../scripts", script])
end
defp parse_lsof(iodata) do
String.split(IO.iodata_to_binary(iodata), "\n", trim: true)
|> Enum.reduce([], fn
"f" <> fd, acc -> [%{fd: fd} | acc]
"t" <> type, [h | acc] -> [Map.put(h, :type, type) | acc]
"n" <> name, [h | acc] -> [Map.put(h, :name, name) | acc]
_, acc -> acc
end)
|> Enum.reverse()
|> Enum.reject(fn
%{fd: fd} when fd in ["255", "cwd", "txt"] ->
true
%{fd: "rtd", name: "/", type: "DIR"} ->
true
# filter libc and friends
%{fd: "mem", type: "REG", name: "/lib/x86_64-linux-gnu/" <> _} ->
true
%{fd: "mem", type: "REG", name: "/usr/lib/locale/C.UTF-8/" <> _} ->
true
%{fd: "mem", type: "REG", name: "/usr/lib/locale/locale-archive" <> _} ->
true
%{fd: "mem", type: "REG", name: "/usr/lib/x86_64-linux-gnu/gconv" <> _} ->
true
_ ->
false
end)
end
defp generate_binary(size) do
Stream.repeatedly(fn -> "A" end) |> Enum.take(size) |> IO.iodata_to_binary()
end
end
diff --git a/test/exile/sync_process_test.exs b/test/exile/sync_process_test.exs
index 51a74e8..cb701fb 100644
--- a/test/exile/sync_process_test.exs
+++ b/test/exile/sync_process_test.exs
@@ -1,54 +1,54 @@
defmodule Exile.SyncProcessTest do
use ExUnit.Case, async: false
alias Exile.Process
- @bin Stream.repeatedly(fn -> "A" end) |> Enum.take(65535) |> IO.iodata_to_binary()
+ @bin Stream.repeatedly(fn -> "A" end) |> Enum.take(65_535) |> IO.iodata_to_binary()
test "memory leak" do
:timer.sleep(1000)
before_exec = :erlang.memory(:total)
{:ok, s} = Process.start_link(~w(cat))
Enum.each(1..500, fn _ ->
:ok = Process.write(s, @bin)
- {:ok, _} = Process.read(s, 65535)
+ {:ok, _} = Process.read(s, 65_535)
end)
:timer.sleep(1000)
after_exec = :erlang.memory(:total)
assert_in_delta before_exec, after_exec, 1024 * 1024
assert :ok == Process.close_stdin(s)
assert {:ok, {:exit, 0}} == Process.await_exit(s, 500)
Process.stop(s)
end
test "if watcher process exits on command exit" do
stop_all_children(Exile.WatcherSupervisor)
assert %{active: 0, workers: 0} = DynamicSupervisor.count_children(Exile.WatcherSupervisor)
assert {:ok, s} = Process.start_link(~w(cat))
# we spawn in background
:timer.sleep(200)
assert %{active: 1, workers: 1} = DynamicSupervisor.count_children(Exile.WatcherSupervisor)
Process.close_stdin(s)
assert {:ok, {:exit, 0}} = Process.await_exit(s, 500)
Process.stop(s)
# wait for watcher to terminate
:timer.sleep(200)
assert %{active: 0, workers: 0} = DynamicSupervisor.count_children(Exile.WatcherSupervisor)
end
defp stop_all_children(sup) do
DynamicSupervisor.which_children(sup)
|> Enum.each(fn {_, pid, _, _} ->
DynamicSupervisor.terminate_child(sup, pid)
end)
end
end

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