/usr/share/lua/5.2/luxio/subprocess.lua is in lua-luxio0 8-1ubuntu1.
This file is owned by root:root, with mode 0o644.
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-- Copyright 2012 Daniel Silverstone <dsilvers@digital-scurf.org>
--
-- Distributed under the same terms as Lua itself (MIT).
--
-- A wrapper for managing sub processes
-------------------------------------------------------------------------------
--
-- sp = require "luxio.subprocess"
--
--
-- proc = sp.spawn {
-- "sleep", "10",
-- exe = "/usr/bin/sleep"
-- }
--
-- or
--
-- proc = sp.spawn_simple {
-- "sleep", "10",
-- exe = "/usr/bin/sleep"
-- }
--
-- spawn_simple wrappers any returned FDs in sio handles
--
--
-- The spawn functions take an argv, an optional exe to use instead of
-- the first argument (which is argv[0])
--
-- Also, you can optionally pass in an (incomplete) set of FDs for the standard
-- IO streams (stdin, stdout, stderr) for the child process. If they're
-- sp.PIPE then a pipe will be created for you and the child's stream FDs will
-- be the other end of it.
--
-- For example:
--
-- proc = sp.spawn_simple {
-- "ls", "/",
-- stdout = sp.PIPE
-- }
--
-- listing = proc.stdout:read("*a")
-- proc.stdout:close()
--
-- If you want the child (during pre-exec) to close additional FDs then
-- you can specify them in a table called close_in_child
--
-- If you want to change directory before exec in the child, you can pass
-- cwd="/some/path".
--
-- To run some code before forking, pass prefork=somefunction and to
-- run code before exec (in the child) pass preexec=somefunction.
--
-- If the prefork function raises an error then the spawn will be stopped and
-- the error propagated. If the preexec function raises an error then the exec
-- will be stopped and the child will exit with status code 1.
--
-- spawn_simple has one additional tweak. If 'stdin' is provided as
-- a string then it will automatically write that string to the stdin
-- of the child (and close the FD afterwards) for you automatically.
--
-- You can provide an env table which modifies the environment of
-- the child. key=value pairs are set in the child environment and
-- key=false pairs cause an unsetenv allowing you to remove environment
-- variables from the child if you need to.
--
-- For example:
--
-- proc = sp.spawn_simple {
-- "tar", "czf", "foo.tar.gz", "foo",
-- env = { GZIP = "-9" }
-- }
--
-- Then, once you are done and wait the result of the process execution,
-- you run:
--
-- how, why = proc:wait(noblock)
-- noblock: If true, wait won't block until proc exits.
--
-- how will be a string (or -1 on error, with why set to the errno)
--
-- If the wait() didn't error, then how will be one of:
-- running, exit, signal, unknown
-- In the first case, the process is still running. In the second it has
-- exited and the 'why' will be the exit code. In the third case, the process
-- was terminated by a signal and the signal in question is in why.
-- If wait() cannot determine why a process exited, then unknown is returned
-- and the why is the full status value from the waitpid() system call.
--
local l = require 'luxio'
local sio = require 'luxio.simple'
local fork = l.fork
local waitpid = l.waitpid
local exec = l.exec
local execp = l.execp
local pipe = l.pipe
local close = l.close
local dup = l.dup
local dup2 = l.dup2
local fcntl = l.fcntl
local bclear = l.bit.bclear
local wrap_fd = sio.wrap_fd
local chdir = sio.chdir
local stderr_fh = sio.stderr
local setenv = l.setenv
local unsetenv = l.unsetenv
local _exit = l._exit
local _TRACEBACK = debug.traceback
local F_SETFD = l.F_SETFD
local F_GETFD = l.F_GETFD
local WIFEXITED = l.WIFEXITED
local WEXITSTATUS = l.WEXITSTATUS
local WIFSIGNALED = l.WIFSIGNALED
local WTERMSIG = l.WTERMSIG
local WNOHANG = l.WNOHANG
local assert = assert
local unpack = unpack
local pairs = pairs
local error = error
local tostring = tostring
l = nil
sio = nil
local _PIPE = {}
local function _wait(proc, nohang)
local pid, status = waitpid(proc.pid, nohang and WNOHANG or 0)
if pid == -1 then
return "error", status
end
if pid == 0 then
return "running", 0
end
if WIFEXITED(status) ~= 0 then
return "exit", WEXITSTATUS(status)
end
if WIFSIGNALED(status) ~= 0 then
return "signal", WTERMSIG(status)
end
return "unknown", status
end
local function _spawn(t)
-- Stage one, normalise our process
local proc = {args={}}
for k, v in pairs(t) do
proc.args[k] = v
end
if proc.args[0] == nil then
if proc.args.exe then
proc.args[0] = proc.args.exe
else
proc.args[0] = proc.args[1]
if proc.args[0]:match("^/") then
proc.args.exe = proc.args[0]
end
end
end
-- Choose which exec function to use, based on whether or not
-- we have an explicit exe.
local exec_fn = proc.args.exe and exec or execp
-- And prepare a local copy of the exe based on the args.
local exe = proc.args.exe or proc.args[0]
assert(exe, "Unable to continue, nothing to run")
-- Simple verification of the FDs.
local function check(v)
if proc.args[v] then
-- Something to do for handle
if proc.args[v] == _PIPE then
-- For now, nothing, later we'll handle this
elseif type(proc.args[v]) == "table" then
-- Simple handle, extract the FD
proc.args[v] = proc.args[v].fd
elseif type(proc.args[v]) == "number" then
-- FD, nothing to do for now
else
assert(false, v .. " isn't a PIPE, Simple Handle or FD")
end
end
end
check "stdin"
check "stdout"
check "stderr"
-- Beyond here, if we get errors, we *MUST* clean up FDs
local parent_close = {}
local child_close = {}
local function _assert(m,v)
if not m then
for fd in pairs(parent_close) do
close(fd)
end
for fd in pairs(child_close) do
close(fd)
end
error(v)
end
end
local function do_pipe(v)
if proc.args[v] == _PIPE then
local fds = {}
local res, errno = pipe(fds)
_assert(res == 0, "Unable to pipe()")
proc.args[v] = fds[2]
proc[v] = fds[1]
parent_close[proc.args[v]] = true
child_close[proc[v]] = true
end
end
do_pipe "stdin"
do_pipe "stdout"
do_pipe "stderr"
if proc.stdin then
-- Swap stdin over.
proc.stdin, proc.args.stdin = proc.args.stdin, proc.stdin
parent_close[proc.stdin] = nil
parent_close[proc.args.stdin] = true
child_close[proc.stdin] = true
child_close[proc.args.stdin] = nil
end
proc.args.stdin = proc.args.stdin or 0
proc.args.stdout = proc.args.stdout or 1
proc.args.stderr = proc.args.stderr or 2
-- Finally, let's fork
if proc.args.prefork then
local ok, msg = xpcall(proc.args.prefork, function(...)
for fd in pairs(parent_close) do
close(fd)
end
for fd in pairs(child_close) do
close(fd)
end
return _TRACEBACK(...)
end)
if not ok then
error(msg)
end
end
local pid, errno = fork()
_assert(pid > -1, "Unable to fork()")
if pid == 0 then
local function check(m)
if m == -1 then
_exit(1)
end
return m
end
-- Set up the FDs.
if proc.args.stdin == -1 then
close(0)
elseif proc.args.stdin ~= 0 then
check(dup2(proc.args.stdin, 0))
end
if proc.args.stdout == -1 then
close(1)
elseif proc.args.stdout ~= 1 then
if proc.args.stderr == 1 then
proc.args.old_stdout = check(dup(1))
end
check(dup2(proc.args.stdout, 1))
end
if proc.args.stderr == -1 then
close(2)
elseif proc.args.stderr ~= 2 then
if proc.args.stderr == 1 and proc.args.old_stdout then
check(dup2(proc.args.old_stdout, 2))
else
check(dup2(proc.args.stderr, 2))
end
end
if proc.args.old_stdout then
close(proc.args.old_stdout)
end
-- FDs 0, 1, 2 initialised, ensure they won't close on exec
fcntl(0, F_SETFD, bclear(fcntl(0, F_GETFD), 1))
fcntl(1, F_SETFD, bclear(fcntl(1, F_GETFD), 1))
fcntl(2, F_SETFD, bclear(fcntl(2, F_GETFD), 1))
-- Close any FDs left which we were asked to
for _, fd in ipairs(proc.args.close_in_child or {}) do
close(fd)
end
-- Finally, close the parent halves of any pipes
for fd in pairs(child_close) do
close(fd)
end
-- perform environment twiddling
if proc.args.env then
for k, v in pairs(proc.args.env) do
if not v then
unsetenv(tostring(k))
else
check(setenv(tostring(k), tostring(v)))
end
end
end
-- Change directory if needed
if proc.args.cwd then
local cwd = tostring(proc.args.cwd)
local ret, err = chdir(cwd)
if ret ~= 0 then
stderr_fh:write("chdir(" .. cwd .. "): " .. err .. "\n")
_exit(1)
end
end
if proc.args.preexec then
local ok, msg = xpcall(proc.args.preexec, _TRACEBACK)
if not ok then
stderr_fh:write(msg .. "\n")
_exit(1)
end
end
-- Run the child process
exec_fn(exe, unpack(proc.args))
-- Exec failed, exit without doing lua cleanups
_exit(1)
end
-- The parent
for fd in pairs(parent_close) do
close(fd)
end
proc.pid = pid
proc.wait = _wait
return proc
end
local function _spawn_simple(t)
local t_copy = {}
for k, v in pairs(t) do
t_copy[k] = v
end
local piping = nil
if type(t_copy.stdin) == "string" then
piping = t_copy.stdin
t_copy.stdin = _PIPE
end
local proc = _spawn(t_copy)
local function doit(v)
if proc[v] then
proc[v] = wrap_fd(proc[v])
end
end
doit "stdin"
doit "stdout"
doit "stderr"
if piping then
proc.stdin:write(piping)
proc.stdin:close()
proc.stdin = nil
end
return proc
end
return {
spawn = _spawn,
spawn_simple = _spawn_simple,
PIPE = _PIPE,
}
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