Spawn¶
Usage
use Spawn;
or
import Spawn;
Support launching and interacting with other programs.
Using functions in this module, one can create a subprocess and possibly capture its output. It is also possible to provide input to a subprocess.
To start a subprocess, use spawn
or spawnshell
. To wait for
the subprocess process to finish, use the subprocess.wait
or
subprocess.communicate
functions.
This example program produces a listing of files in the current directory with
names that begin with test.
by using the ls
command. The
output will be mixed in with the Chapel program’s output.
use Spawn;
var sub = spawn(["ls", "test.*"]);
sub.wait();
This version also runs the ls
command but uses a pipe
to read the output from the ls
command.
use Spawn;
var sub = spawn(["ls", "test.*"], stdout=PIPE);
var line:string;
while sub.stdout.readline(line) {
write("ls returned: ", line);
}
sub.wait();
Here is an example program that provides input to a subprocess in addition to
capturing its output. This version uses the cat
command, which just prints
back its input.
use Spawn;
var sub = spawn(["cat"], stdin=BUFFERED_PIPE, stdout=PIPE);
sub.stdin.writeln("Hello");
sub.stdin.writeln("World");
sub.communicate();
var line:string;
while sub.stdout.readline(line) {
write("Got line: ", line);
}
// prints out:
// Got line: Hello
// Got line: World
Here is a final example in which the Chapel program uses 2 tasks to work with a subprocess. One task is producing data and the other task is consuming it.
use Spawn;
var input = ["a", "b", "c"];
var sub = spawn(["cat"], stdin=PIPE, stdout=PIPE);
cobegin {
{
// one task writes data to the subprocess
for x in input {
sub.stdin.writeln(x);
}
// this close is important; otherwise the other task blocks forever
sub.stdin.close();
}
{
var line:string;
while sub.stdout.readln(line) {
writeln("Got line ", line);
}
}
}
sub.wait();
// prints out:
// Got line: a
// Got line: b
// Got line: c
Note
Creating a subprocess that uses PIPE
to provide
input or capture output does not work when using the ugni communications layer
with hugepages enabled and when using more than one locale. In this
circumstance, the program will halt with an error message. These scenarios do
work when using GASNet instead of the ugni layer.
-
record
subprocess
¶ This record represents a subprocess.
Note that the subprocess will not be waited for if this record goes out of scope. Channels opened to communicate with the subprocess will be closed if the record goes out of scope, however.
Generally, it is important to call
subprocess.wait
to wait for the process to complete. If the parent process is using pipes to communicate with the subprocess, the parent process may callsubprocess.close
in order to close the pipes and free any buffers. Such calls are generally not needed since the channels will be closed when the subprocess record is automatically destroyed.-
param
kind
: iokind¶ The kind of a subprocess is used to create the types for any channels that are necessary.
-
param
locking
: bool¶ As with kind, this value is used to create the types for any channels that are necessary.
-
var
pid
: int(64)¶ The Process ID number of the spawned process
-
var
running
: bool¶ false if this library knows that the subprocess is not running
-
var
exit_status
: int¶ The exit status from the subprocess, or possibly a value >= 256 if there was en error when creating the subprocess
-
proc
stdin
throws¶ Access the stdin pipe for the subprocess. The parent process can write to the subprocess through this pipe if the subprocess was created with stdin=PIPE.
Throws: SystemError – If the subprocess does not have a stdin pipe open.
-
proc
stdout
throws¶ Access the stdout pipe for the subprocess. The parent process can read from the subprocess through this pipe if the subprocess was created with stdout=PIPE.
Throws: SystemError – If the subprocess does not have a stdout pipe open.
-
proc
stderr
throws¶ Access the stderr pipe for the subprocess. The parent process can read from the subprocess through this pipe if the subprocess was created with stderr=PIPE.
Throws: SystemError – If the subprocess does not have a stderr pipe open.
-
param
-
const
FORWARD
= QIO_FD_FORWARD¶ FORWARD indicates that the child process should inherit the stdin/stdout/stderr of this process.
-
const
CLOSE
= QIO_FD_CLOSE¶ CLOSE indicates that the child process should close its stdin/stdout/stderr.
-
const
PIPE
= QIO_FD_PIPE¶ PIPE indicates that the spawn operation should set up a pipe between the parent process and the child process so that the parent process can provide input to the child process or capture its output.
-
const
STDOUT
= QIO_FD_TO_STDOUT¶ STDOUT indicates that the stderr stream of the child process should be forwarded to its stdout stream.
-
const
BUFFERED_PIPE
= QIO_FD_BUFFERED_PIPE¶ BUFFERED_PIPE is the same as PIPE, but when used for stdin causes all data to be buffered and sent on the communicate() call. This avoids certain deadlock scenarios where stdout or stderr are PIPE. In particular, without BUFFERED_PIPE, the sub-process might block on writing output which will not be consumed until the communicate() call.
-
proc
spawn
(args: [] string, env: [] string = Spawn.empty_env, executable = "", stdin: ?t = FORWARD, stdout: ?u = FORWARD, stderr: ?v = FORWARD, param kind = iokind.dynamic, param locking = true) throws¶ Create a subprocess.
Arguments: - args – An array of strings storing the command to run and its arguments. The command to run is always the first argument. The command could be found in the current PATH or it could be a full path to a file to execute. If the executable argument is set, the first argument will be the name of the spawned program provided to that program and typically shown in process listings.
- env – An array of strings storing the environment to use when spawning the child process instead of forwarding the current environment. By default, this argument is an empty array. In that case, the current environment will be forwarded to the child process.
- executable – By default, the executable argument is “”. In that case, the program to launch is the first element of the args array. If the executable argument is provided, it will be used instead of the first element of the args array as the program to launch. In either case, the program could be found by searching the PATH.
- stdin – indicates how the standard input of the child process
should be handled. It could be
FORWARD
,CLOSE
,PIPE
, or a file descriptor number to use. Defaults toFORWARD
. - stdout – indicates how the standard output of the child process
should be handled. It could be
FORWARD
,CLOSE
,PIPE
, or a file descriptor number to use. Defaults toFORWARD
. - stderr – indicates how the standard error of the child process
should be handled. It could be
FORWARD
,CLOSE
,PIPE
,STDOUT
, or a file descriptor number to use. Defaults toFORWARD
. - kind – What kind of channels should be created when
PIPE
is used. This argument is used to setsubprocess.kind
in the resulting subprocess. Defaults toIO.iokind
iokind.dynamic
. - locking – Should channels created use locking?
This argument is used to set
subprocess.locking
in the resulting subprocess. Defaults to true.
Returns: a
subprocess
with kind and locking set according to the arguments.Throws: IllegalArgumentError – Thrown when
args
is an empty array.
-
proc
spawnshell
(command: string, env: [] string = Spawn.empty_env, stdin: ?t = FORWARD, stdout: ?u = FORWARD, stderr: ?v = FORWARD, executable = "/bin/sh", shellarg = "-c", param kind = iokind.dynamic, param locking = true) throws¶ Create a subprocess by invoking a shell.
Note
Since the command string is passed to a shell, it is very unsecure to pass user input to this command without proper quoting.
Arguments: - command – A string representing the command to run. This string will be interpreted by the shell.
- env – An array of strings storing the environment to use when spawning the child process instead of forwarding the current environment. By default, this argument is an empty array. In that case, the current environment will be forwarded to the child process.
- stdin – indicates how the standard input of the child process
should be handled. It could be
FORWARD
,CLOSE
,PIPE
, or a file descriptor number to use. Defaults toFORWARD
. - stdout – indicates how the standard output of the child process
should be handled. It could be
FORWARD
,CLOSE
,PIPE
, or a file descriptor number to use. Defaults toFORWARD
. - stderr – indicates how the standard error of the child process
should be handled. It could be
FORWARD
,CLOSE
,PIPE
,STDOUT
, or a file descriptor number to use. Defaults toFORWARD
. - executable – By default, the executable argument is “/bin/sh”. That directs the subprocess to run the /bin/sh shell in order to interpret the command string.
- shellarg – An argument to pass to the shell before the command string. By default this is “-c”.
- kind – What kind of channels should be created when
PIPE
is used. This argument is used to setsubprocess.kind
in the resulting subprocess. Defaults toIO.iokind
iokind.dynamic
. - locking – Should channels created use locking?
This argument is used to set
subprocess.locking
in the resulting subprocess. Defaults to true.
Returns: a
subprocess
with kind and locking set according to the arguments.Throws: IllegalArgumentError – Thrown when
command
is an empty string.
-
proc
subprocess.
poll
() throws¶ Check to see if a child process has terminated. If the child process has terminated, after this call,
running
will be false.
-
proc
subprocess.
wait
(buffer = true) throws¶ Wait for a child process to complete. After this function returns,
running
is false andexit_status
stores the exit code returned by the subprocess.If buffer is true, then this call will handle cases in which stdin, stdout, or stderr for the child process is
PIPE
by writing any input to the child process and buffering up the output of the child process as necessary while waiting for it to terminate. It will do so in the same manner assubprocess.communicate
.Note
Do not use buffer false when using
PIPE
for stdin, stdout, or stderr. If buffer is false, this function does not try to send any buffered input to the child process and so could result in a hang if the child process is waiting for input to finish. Similarly, this function does not consume the output from the child process and so the child process could hang while waiting to write data to its output while the parent process is waiting for it to complete (and not consuming its output).Arguments: buffer – if true, buffer input and output pipes (see above).
-
proc
subprocess.
communicate
() throws¶ Wait for a child process to complete. After this function returns,
running
is false andexit_status
stores the exit code returned by the subprocess.This function handles cases in which stdin, stdout, or stderr for the child process is
PIPE
by writing any input to the child process and buffering up the output of the child process as necessary while waiting for it to terminate.
-
proc
subprocess.
close
() throws¶ Close any open channels and pipes for interacting with a subprocess. This function does not wait for the subprocess to complete. Note that it is generally not necessary to call this function since these channels will be closed when the subprocess record goes out of scope.
-
proc
subprocess.
send_signal
(signal: int) throws¶ Send a signal to a child process.
Declarations for POSIX.1.2008 signals are provided in this module. These include SIGABRT, SIGALRM, SIGBUS, SIGCHLD, SIGCONT, SIGFPE, SIGHUP, SIGILL, SIGINT, SIGKILL, SIGPIPE, SIGQUIT, SIGSEGV, SIGSTOP, SIGTERM, SIGTRAP, SIGTSTP, SIGTTIN, SIGTTOU, SIGURG, SIGUSR1, SIGUSR2, SIGXCPU, SIGXFSZ.
See your system’s documentation for their meaning:
man signal
Other values for signal are system-specific and can be declared in this way, for example:
extern const SIGPOLL: c_int;
Arguments: signal – the signal to send
-
proc
subprocess.
kill
() throws¶ Unconditionally kill the child process. The associated signal, SIGKILL, cannot be caught by the child process. See
subprocess.send_signal
.
-
proc
subprocess.
terminate
() throws¶ Request termination of the child process. The associated signal, SIGTERM, may be caught and handled by the child process. See
subprocess.send_signal
.