Elixir v1.5.0-rc.2 Port View Source
Functions for interacting with the external world through ports.
Ports provide a mechanism to start operating system processes external to the Erlang VM and communicate with them via message passing.
Example
iex> port = Port.open({:spawn, "cat"}, [:binary])
iex> send port, {self(), {:command, "hello"}}
iex> send port, {self(), {:command, "world"}}
iex> flush()
{#Port<0.1444>, {:data, "hello"}}
{#Port<0.1444>, {:data, "world"}}
iex> send port, {self(), :close}
:ok
iex> flush()
{#Port<0.1464>, :closed}
:ok
In the example above, we have created a new port that executes the
program cat
. cat
is a program available on UNIX systems that
receives data from multiple inputs and concatenates them in the output.
After the port was created, we sent it two commands in the form of
messages using Kernel.send/2
. The first command has the binary payload
of “hello” and the second has “world”.
After sending those two messages, we invoked the IEx helper flush()
,
which printed all messages received from the port, in this case we got
“hello” and “world” back. Notice the messages are in binary because we
passed the :binary
option when opening the port in Port.open/2
. Without
such option, it would have yielded a list of bytes.
Once everything was done, we closed the port.
Elixir provides many conveniences for working with ports and some drawbacks. We will explore those below.
Message and function APIs
There are two APIs for working with ports. It can be either asynchronous via message passing, as in the example above, or by calling the functions on this module.
The messages supported by ports and their counterpart function APIs are listed below:
{pid, {:command, binary}}
- sends the given data to the port. Seecommand/3
.{pid, :close}
- closes the port. Unless the port is already closed, the port will reply with{port, :closed}
message once it has flushed its buffers and effectively closed. Seeclose/1
.{pid, {:connect, new_pid}}
- sets thenew_pid
as the new owner of the port. Once a port is opened, the port is linked and connected to the caller process and communication to the port only happens through the connected process. This message makesnew_pid
the new connected processes. Unless the port is dead, the port will reply to the old owner with{port, :connected}
. Seeconnect/2
.
On its turn, the port will send the connected process the following messages:
{port, {:data, data}}
- data sent by the port{port, :closed}
- reply to the{pid, :close}
message{port, :connected}
- reply to the{pid, {:connect, new_pid}}
message{:EXIT, port, reason}
- exit signals in case the port crashes. If reason is not:normal
, this message will only be received if the owner process is trapping exits
Open mechanisms
The port can be opened through four main mechanisms.
As a short summary, prefer to using the :spawn
and :spawn_executable
options mentioned below. The other two options, :spawn_driver
and :fd
are for advanced usage within the VM. Also consider using System.cmd/3
if all you want is to execute a program and retrieve its return value.
spawn
The :spawn
tuple receives a binary that is going to be executed as a
full invocation. For example, we can use it to invoke “echo hello” directly:
iex> port = Port.open({:spawn, "echo oops"}, [:binary])
iex> flush()
{#Port<0.1444>, {:data, "oops\n"}}
:spawn
will retrieve the program name from the argument and traverse your
OS $PATH
environment variable looking for a matching program.
Although the above is handy, it means it is impossible to invoke an executable
that has whitespaces on its name or in any of its arguments. For those reasons,
most times it is preferrable to execute :spawn_executable
.
spawn_executable
Spawn executable is a more restricted and explicit version of spawn. It expects
full file paths to the executable you want to execute. If they are in your $PATH
,
they can be retrieved by calling System.find_executable/1
:
iex> path = System.find_executable("echo")
iex> port = Port.open({:spawn_executable, path}, [:binary, args: ["hello world"]])
iex> flush()
{#Port<0.1380>, {:data, "hello world\n"}}
When using :spawn_executable
, the list of arguments can be passed via
the :args
option as done above. For the full list of options, see the
documentation for the Erlang function :erlang.open_port/2
.
spawn_driver
Spawn driver is used to start Port Drivers, which are programs written in C that implements a specific communication protocols and are dynamically linked to the Erlang VM. Port drivers are an advanced topic and one of the mechanisms for integrating C code, alongside NIFs. For more information, please check the Erlang docs.
fd
The :fd
name option allows developers to access in
and out
file
descriptors used by the Erlang VM. You would use those only if you are
reimplementing core part of the Runtime System, such as the :user
and
:shell
processes.
Zombie processes
A port can be closed via the close/1
function or by sending a {pid, :close}
message. However, if the VM crashes, a long-running program started by the port
will have its stdin and stdout channels closed but it won’t be automatically
terminated.
While most UNIX command line tools will exit once its communication channels are closed, not all command line applications will do so. While we encourage graceful termination by detecting if stdin/stdout has been closed, we do not always have control over how 3rd party software terminates. In those cases, you can wrap the application in a script that checks for stdin. Here is such script in bash:
#!/bin/sh
"$@"
pid=$!
while read line ; do
:
done
kill -KILL $pid
Now instead of:
Port.open({:spawn_executable, "/path/to/program"},
[args: ["a", "b", "c"]])
You may invoke:
Port.open({:spawn_executable, "/path/to/wrapper"},
[args: ["/path/to/program", "a", "b", "c"]])
Link to this section Summary
Functions
Closes the port
Sends data
to the port driver port
Associates the port
identifier with a pid
Returns information about the port
or nil
if the port is closed
Returns information about the port
or nil
if the port is closed
Returns a list of all ports in the current node
Opens a port given a tuple name
and a list of options
Link to this section Types
name() :: {:spawn, charlist() | binary()} | {:spawn_driver, charlist() | binary()} | {:spawn_executable, charlist() | atom()} | {:fd, non_neg_integer(), non_neg_integer()}
Link to this section Functions
Closes the port
.
For more information, see :erlang.port_close/1
.
Inlined by the compiler.
Sends data
to the port driver port
.
For more information, see :erlang.port_command/2
.
Inlined by the compiler.
Associates the port
identifier with a pid
.
For more information, see :erlang.port_connect/2
.
Inlined by the compiler.
Returns information about the port
or nil
if the port is closed.
For more information, see :erlang.port_info/1
.
Returns information about the port
or nil
if the port is closed.
For more information, see :erlang.port_info/2
.
Returns a list of all ports in the current node.
Inlined by the compiler.
Opens a port given a tuple name
and a list of options
.
The module documentation above contains documentation and examples
for the supported name
values, summarized below:
{:spawn, command}
- runs an external program.command
must contain the program name and optionally a list of arguments separated by space. If passing programs or arguments with space in their name, use the next option.{:spawn_executable, filename}
- runs the executable given by the absolute file namefilename
. Arguments can be passed via the:args
option.{:spawn_driver, command}
- spawns so-called port drivers.{:fd, fd_in, fd_out}
- accesses file descriptors,fd_in
andfd_out
opened by the VM.
For more information and the list of options, see
:erlang.open_port/2
.
Inlined by the compiler.