core/executor.py

OILS / core / executor.py View on Github | oilshell.org

731 lines, 395 significant

1	"""executor.py."""
2	from __future__ import print_function
3
4	from errno import EINTR
5
6	from _devbuild.gen.id_kind_asdl import Id
7	from _devbuild.gen.option_asdl import builtin_i
8	from _devbuild.gen.runtime_asdl import RedirValue, trace
9	from _devbuild.gen.syntax_asdl import (
10	command,
11	command_e,
12	CommandSub,
13	CompoundWord,
14	loc,
15	loc_t,
16	)
17	from builtin import hay_ysh
18	from core import dev
19	from core import error
20	from core import process
21	from core.error import e_die, e_die_status
22	from core import pyos
23	from core import pyutil
24	from core import state
25	from display import ui
26	from core import vm
27	from frontend import consts
28	from frontend import lexer
29	from mycpp.mylib import log, print_stderr
30
31	import posix_ as posix
32
33	from typing import cast, Dict, List, Tuple, Optional, TYPE_CHECKING
34	if TYPE_CHECKING:
35	from _devbuild.gen.runtime_asdl import (cmd_value, CommandStatus,
36	StatusArray)
37	from _devbuild.gen.syntax_asdl import command_t
38	from builtin import trap_osh
39	from core import optview
40	from core import state
41	from core.vm import _Builtin
42
43	_ = log
44
45
46	class _ProcessSubFrame(object):
47	"""To keep track of diff <(cat 1) <(cat 2) > >(tac)"""
48
49	def __init__(self):
50	# type: () -> None
51
52	# These objects appear unconditionally in the main loop, and aren't
53	# commonly used, so we manually optimize [] into None.
54
55	self._to_wait = [] # type: List[process.Process]
56	self._to_close = [] # type: List[int] # file descriptors
57	self._locs = [] # type: List[loc_t]
58	self._modified = False
59
60	def WasModified(self):
61	# type: () -> bool
62	return self._modified
63
64	def Append(self, p, fd, status_loc):
65	# type: (process.Process, int, loc_t) -> None
66	self._modified = True
67
68	self._to_wait.append(p)
69	self._to_close.append(fd)
70	self._locs.append(status_loc)
71
72	def MaybeWaitOnProcessSubs(self, waiter, status_array):
73	# type: (process.Waiter, StatusArray) -> None
74
75	# Wait in the same order that they were evaluated. That seems fine.
76	for fd in self._to_close:
77	posix.close(fd)
78
79	codes = [] # type: List[int]
80	locs = [] # type: List[loc_t]
81	for i, p in enumerate(self._to_wait):
82	#log('waiting for %s', p)
83	st = p.Wait(waiter)
84	codes.append(st)
85	locs.append(self._locs[i])
86
87	status_array.codes = codes
88	status_array.locs = locs
89
90
91	# Big flags for RunSimpleCommand
92	IS_LAST_CMD = 1 << 1
93	NO_CALL_PROCS = 1 << 2 # command ls suppresses function lookup
94	USE_DEFAULT_PATH = 1 << 3 # for command -p ls changes the path
95
96	# Copied from var.c in dash
97	DEFAULT_PATH = [
98	'/usr/local/sbin', '/usr/local/bin', '/usr/sbin', '/usr/bin', '/sbin',
99	'/bin'
100	]
101
102
103	class ShellExecutor(vm._Executor):
104	"""An executor combined with the OSH language evaluators in osh/ to create
105	a shell interpreter."""
106
107	def __init__(
108	self,
109	mem, # type: state.Mem
110	exec_opts, # type: optview.Exec
111	mutable_opts, # type: state.MutableOpts
112	procs, # type: state.Procs
113	hay_state, # type: hay_ysh.HayState
114	builtins, # type: Dict[int, _Builtin]
115	search_path, # type: state.SearchPath
116	ext_prog, # type: process.ExternalProgram
117	waiter, # type: process.Waiter
118	tracer, # type: dev.Tracer
119	job_control, # type: process.JobControl
120	job_list, # type: process.JobList
121	fd_state, # type: process.FdState
122	trap_state, # type: trap_osh.TrapState
123	errfmt # type: ui.ErrorFormatter
124	):
125	# type: (...) -> None
126	vm._Executor.__init__(self)
127	self.mem = mem
128	self.exec_opts = exec_opts
129	self.mutable_opts = mutable_opts # for IsDisabled(), not mutating
130	self.procs = procs
131	self.hay_state = hay_state
132	self.builtins = builtins
133	self.search_path = search_path
134	self.ext_prog = ext_prog
135	self.waiter = waiter
136	self.tracer = tracer
137	self.multi_trace = tracer.multi_trace
138	self.job_control = job_control
139	# sleep 5 & puts a (PID, job#) entry here. And then "jobs" displays it.
140	self.job_list = job_list
141	self.fd_state = fd_state
142	self.trap_state = trap_state
143	self.errfmt = errfmt
144	self.process_sub_stack = [] # type: List[_ProcessSubFrame]
145	self.clean_frame_pool = [] # type: List[_ProcessSubFrame]
146
147	# When starting a pipeline in the foreground, we need to pass a handle to it
148	# through the evaluation of the last node back to ourselves for execution.
149	# We use this handle to make sure any processes forked for the last part of
150	# the pipeline are placed into the same process group as the rest of the
151	# pipeline. Since there is, by design, only ever one foreground pipeline and
152	# any pipelines started within subshells run in their parent's process
153	# group, we only need one pointer here, not some collection.
154	self.fg_pipeline = None # type: Optional[process.Pipeline]
155
156	def CheckCircularDeps(self):
157	# type: () -> None
158	assert self.cmd_ev is not None
159
160	def _MakeProcess(self, node, inherit_errexit, inherit_errtrace):
161	# type: (command_t, bool, bool) -> process.Process
162	"""Assume we will run the node in another process.
163
164	Return a process.
165	"""
166	UP_node = node
167	if node.tag() == command_e.ControlFlow:
168	node = cast(command.ControlFlow, UP_node)
169	# Pipeline or subshells with control flow are invalid, e.g.:
170	# - break \| less
171	# - continue \| less
172	# - ( return )
173	# NOTE: This could be done at parse time too.
174	if node.keyword.id != Id.ControlFlow_Exit:
175	e_die(
176	'Invalid control flow %r in pipeline / subshell / background'
177	% lexer.TokenVal(node.keyword), node.keyword)
178
179	# NOTE: If ErrExit(), we could be verbose about subprogram errors? This
180	# only really matters when executing 'exit 42', because the child shell
181	# inherits errexit and will be verbose. Other notes:
182	#
183	# - We might want errors to fit on a single line so they don't get #
184	# interleaved.
185	# - We could turn the `exit` builtin into a error.FatalRuntime exception
186	# and get this check for "free".
187	thunk = process.SubProgramThunk(self.cmd_ev, node, self.trap_state,
188	self.multi_trace, inherit_errexit,
189	inherit_errtrace)
190	p = process.Process(thunk, self.job_control, self.job_list,
191	self.tracer)
192	return p
193
194	def RunBuiltin(self, builtin_id, cmd_val):
195	# type: (int, cmd_value.Argv) -> int
196	"""Run a builtin.
197
198	Also called by the 'builtin' builtin.
199	"""
200	self.tracer.OnBuiltin(builtin_id, cmd_val.argv)
201
202	builtin_func = self.builtins[builtin_id]
203
204	io_errors = [] # type: List[error.IOError_OSError]
205	with vm.ctx_FlushStdout(io_errors):
206	# note: could be second word, like 'builtin read'
207	with ui.ctx_Location(self.errfmt, cmd_val.arg_locs[0]):
208	try:
209	status = builtin_func.Run(cmd_val)
210	assert isinstance(status, int)
211	except (IOError, OSError) as e:
212	self.errfmt.PrintMessage(
213	'%s builtin I/O error: %s' %
214	(cmd_val.argv[0], pyutil.strerror(e)),
215	cmd_val.arg_locs[0])
216	return 1
217	except error.Usage as e:
218	arg0 = cmd_val.argv[0]
219	# e.g. 'type' doesn't accept flag '-x'
220	self.errfmt.PrefixPrint(e.msg, '%r ' % arg0, e.location)
221	return 2 # consistent error code for usage error
222
223	if len(io_errors): # e.g. disk full, ulimit
224	self.errfmt.PrintMessage(
225	'%s builtin I/O error: %s' %
226	(cmd_val.argv[0], pyutil.strerror(io_errors[0])),
227	cmd_val.arg_locs[0])
228	return 1
229
230	return status
231
232	def RunSimpleCommand(self, cmd_val, cmd_st, run_flags):
233	# type: (cmd_value.Argv, CommandStatus, int) -> int
234	"""Run builtins, functions, external commands.
235
236	Possible variations:
237	- YSH might have different, simpler rules. No special builtins, etc.
238	- YSH might have OILS_PATH = :\| /bin /usr/bin \| or something.
239	- Interpreters might want to define all their own builtins.
240	"""
241	argv = cmd_val.argv
242	if len(cmd_val.arg_locs):
243	arg0_loc = cmd_val.arg_locs[0] # type: loc_t
244	else:
245	arg0_loc = loc.Missing
246
247	# This happens when you write "$@" but have no arguments.
248	if len(argv) == 0:
249	if self.exec_opts.strict_argv():
250	e_die("Command evaluated to an empty argv array", arg0_loc)
251	else:
252	return 0 # status 0, or skip it?
253
254	arg0 = argv[0]
255
256	builtin_id = consts.LookupAssignBuiltin(arg0)
257	if builtin_id != consts.NO_INDEX:
258	# command readonly is disallowed, for technical reasons. Could relax it
259	# later.
260	self.errfmt.Print_("Can't run assignment builtin recursively",
261	arg0_loc)
262	return 1
263
264	builtin_id = consts.LookupSpecialBuiltin(arg0)
265	if builtin_id != consts.NO_INDEX:
266	cmd_st.show_code = True # this is a "leaf" for errors
267	status = self.RunBuiltin(builtin_id, cmd_val)
268	# TODO: Enable this and fix spec test failures.
269	# Also update _SPECIAL_BUILTINS in osh/builtin.py.
270	#if status != 0:
271	# e_die_status(status, 'special builtin failed')
272	return status
273
274	call_procs = not (run_flags & NO_CALL_PROCS)
275	# Builtins like 'true' can be redefined as functions.
276	if call_procs:
277	# TODO: Look shell functions in self.sh_funcs, but procs are
278	# value.Proc in the var namespace.
279	# Pitfall: What happens if there are two of the same name? I guess
280	# that's why you have = and 'type' inspect them
281
282	proc_node = self.procs.Get(arg0)
283	if proc_node is not None:
284	if self.exec_opts.strict_errexit():
285	disabled_tok = self.mutable_opts.ErrExitDisabledToken()
286	if disabled_tok:
287	self.errfmt.Print_(
288	'errexit was disabled for this construct',
289	disabled_tok)
290	self.errfmt.StderrLine('')
291	e_die(
292	"Can't run a proc while errexit is disabled. "
293	"Use 'try' or wrap it in a process with $0 myproc",
294	arg0_loc)
295
296	with dev.ctx_Tracer(self.tracer, 'proc', argv):
297	# NOTE: Functions could call 'exit 42' directly, etc.
298	status = self.cmd_ev.RunProc(proc_node, cmd_val)
299	return status
300
301	# Notes:
302	# - procs shadow hay names
303	# - hay names shadow normal builtins? Should we limit to CAPS or no?
304	if self.hay_state.Resolve(arg0):
305	return self.RunBuiltin(builtin_i.haynode, cmd_val)
306
307	builtin_id = consts.LookupNormalBuiltin(arg0)
308
309	if self.exec_opts._running_hay():
310	# Hay: limit the builtins that can be run
311	# - declare 'use dialect'
312	# - echo and write for debugging
313	# - no JSON?
314	if builtin_id in (builtin_i.haynode, builtin_i.use, builtin_i.echo,
315	builtin_i.write):
316	cmd_st.show_code = True # this is a "leaf" for errors
317	return self.RunBuiltin(builtin_id, cmd_val)
318
319	self.errfmt.Print_('Unknown command %r while running hay' % arg0,
320	arg0_loc)
321	return 127
322
323	if builtin_id != consts.NO_INDEX:
324	cmd_st.show_code = True # this is a "leaf" for errors
325	return self.RunBuiltin(builtin_id, cmd_val)
326
327	environ = self.mem.GetExported() # Include temporary variables
328
329	if cmd_val.proc_args:
330	e_die(
331	'%r appears to be external. External commands don\'t accept typed args (OILS-ERR-200)'
332	% arg0, cmd_val.proc_args.typed_args.left)
333
334	# Resolve argv[0] BEFORE forking.
335	if run_flags & USE_DEFAULT_PATH:
336	argv0_path = state.LookupExecutable(arg0, DEFAULT_PATH)
337	else:
338	argv0_path = self.search_path.CachedLookup(arg0)
339	if argv0_path is None:
340	self.errfmt.Print_('%r not found (OILS-ERR-100)' % arg0, arg0_loc)
341	return 127
342
343	if self.trap_state.ThisProcessHasTraps():
344	do_fork = True
345	else:
346	do_fork = not cmd_val.is_last_cmd
347
348	# Normal case: ls /
349	if do_fork:
350	thunk = process.ExternalThunk(self.ext_prog, argv0_path, cmd_val,
351	environ)
352	p = process.Process(thunk, self.job_control, self.job_list,
353	self.tracer)
354
355	if self.job_control.Enabled():
356	if self.fg_pipeline is not None:
357	pgid = self.fg_pipeline.ProcessGroupId()
358	# If job control is enabled, this should be true
359	assert pgid != process.INVALID_PGID
360
361	change = process.SetPgid(pgid, self.tracer)
362	self.fg_pipeline = None # clear to avoid confusion in subshells
363	else:
364	change = process.SetPgid(process.OWN_LEADER, self.tracer)
365	p.AddStateChange(change)
366
367	status = p.RunProcess(self.waiter, trace.External(cmd_val.argv))
368
369	# this is close to a "leaf" for errors
370	# problem: permission denied EACCESS prints duplicate messages
371	# TODO: add message command 'ls' failed
372	cmd_st.show_code = True
373
374	return status
375
376	self.tracer.OnExec(cmd_val.argv)
377
378	# Already forked for pipeline: ls / \| wc -l
379	self.ext_prog.Exec(argv0_path, cmd_val, environ) # NEVER RETURNS
380
381	raise AssertionError('for -Wreturn-type in C++')
382
383	def RunBackgroundJob(self, node):
384	# type: (command_t) -> int
385	"""For & etc."""
386	# Special case for pipeline. There is some evidence here:
387	# https://www.gnu.org/software/libc/manual/html_node/Launching-Jobs.html#Launching-Jobs
388	#
389	# "You can either make all the processes in the process group be children
390	# of the shell process, or you can make one process in group be the
391	# ancestor of all the other processes in that group. The sample shell
392	# program presented in this chapter uses the first approach because it
393	# makes bookkeeping somewhat simpler."
394	UP_node = node
395
396	if UP_node.tag() == command_e.Pipeline:
397	node = cast(command.Pipeline, UP_node)
398	pi = process.Pipeline(self.exec_opts.sigpipe_status_ok(),
399	self.job_control, self.job_list, self.tracer)
400	for child in node.children:
401	p = self._MakeProcess(child, True, self.exec_opts.errtrace())
402	p.Init_ParentPipeline(pi)
403	pi.Add(p)
404
405	pi.StartPipeline(self.waiter)
406	pi.SetBackground()
407	last_pid = pi.LastPid()
408	self.mem.last_bg_pid = last_pid # for $!
409
410	job_id = self.job_list.AddJob(pi) # show in 'jobs' list
411
412	else:
413	# Problem: to get the 'set -b' behavior of immediate notifications, we
414	# have to register SIGCHLD. But then that introduces race conditions.
415	# If we haven't called Register yet, then we won't know who to notify.
416
417	p = self._MakeProcess(node, True, self.exec_opts.errtrace())
418	if self.job_control.Enabled():
419	p.AddStateChange(
420	process.SetPgid(process.OWN_LEADER, self.tracer))
421
422	p.SetBackground()
423	pid = p.StartProcess(trace.Fork)
424	self.mem.last_bg_pid = pid # for $!
425	job_id = self.job_list.AddJob(p) # show in 'jobs' list
426
427	if self.exec_opts.interactive():
428	# Print it like %1 to show it's a job
429	print_stderr('[%%%d] PID %d Started' %
430	(job_id, self.mem.last_bg_pid))
431
432	return 0
433
434	def RunPipeline(self, node, status_out):
435	# type: (command.Pipeline, CommandStatus) -> None
436
437	pi = process.Pipeline(self.exec_opts.sigpipe_status_ok(),
438	self.job_control, self.job_list, self.tracer)
439
440	# initialized with CommandStatus.CreateNull()
441	pipe_locs = [] # type: List[loc_t]
442
443	# First n-1 processes (which is empty when n == 1)
444	n = len(node.children)
445	for i in xrange(n - 1):
446	child = node.children[i]
447
448	# TODO: determine these locations at parse time?
449	pipe_locs.append(loc.Command(child))
450
451	p = self._MakeProcess(child, True, self.exec_opts.errtrace())
452	p.Init_ParentPipeline(pi)
453	pi.Add(p)
454
455	last_child = node.children[n - 1]
456	# Last piece of code is in THIS PROCESS. 'echo foo \| read line; echo $line'
457	pi.AddLast((self.cmd_ev, last_child))
458	pipe_locs.append(loc.Command(last_child))
459
460	with dev.ctx_Tracer(self.tracer, 'pipeline', None):
461	pi.StartPipeline(self.waiter)
462	self.fg_pipeline = pi
463	status_out.pipe_status = pi.RunLastPart(self.waiter, self.fd_state)
464	self.fg_pipeline = None # clear in case we didn't end up forking
465
466	status_out.pipe_locs = pipe_locs
467
468	def RunSubshell(self, node):
469	# type: (command_t) -> int
470	p = self._MakeProcess(node, True, self.exec_opts.errtrace())
471	if self.job_control.Enabled():
472	p.AddStateChange(process.SetPgid(process.OWN_LEADER, self.tracer))
473
474	return p.RunProcess(self.waiter, trace.ForkWait)
475
476	def CaptureStdout(self, node):
477	# type: (command_t) -> Tuple[int, str]
478
479	p = self._MakeProcess(node, self.exec_opts.inherit_errexit(),
480	self.exec_opts.errtrace())
481	# Shell quirk: Command subs remain part of the shell's process group, so we
482	# don't use p.AddStateChange(process.SetPgid(...))
483
484	r, w = posix.pipe()
485	p.AddStateChange(process.StdoutToPipe(r, w))
486
487	p.StartProcess(trace.CommandSub)
488	#log('Command sub started %d', pid)
489
490	chunks = [] # type: List[str]
491	posix.close(w) # not going to write
492	while True:
493	n, err_num = pyos.Read(r, 4096, chunks)
494
495	if n < 0:
496	if err_num == EINTR:
497	pass # retry
498	else:
499	# Like the top level IOError handler
500	e_die_status(
501	2,
502	'Oils I/O error (read): %s' % posix.strerror(err_num))
503
504	elif n == 0: # EOF
505	break
506	posix.close(r)
507
508	status = p.Wait(self.waiter)
509	stdout_str = ''.join(chunks).rstrip('\n')
510
511	return status, stdout_str
512
513	def RunCommandSub(self, cs_part):
514	# type: (CommandSub) -> str
515
516	if not self.exec_opts._allow_command_sub():
517	# _allow_command_sub is used in two places. Only one of them turns
518	# off _allow_process_sub
519	if not self.exec_opts._allow_process_sub():
520	why = "status wouldn't be checked (strict_errexit)"
521	else:
522	why = 'eval_unsafe_arith is off'
523
524	e_die("Command subs not allowed here because %s" % why,
525	loc.WordPart(cs_part))
526
527	node = cs_part.child
528
529	# Hack for weird $(<file) construct
530	if node.tag() == command_e.Redirect:
531	redir_node = cast(command.Redirect, node)
532	# Detect '< file'
533	if (len(redir_node.redirects) == 1 and
534	redir_node.redirects[0].op.id == Id.Redir_Less and
535	redir_node.child.tag() == command_e.NoOp):
536
537	# Change it to __cat < file.
538	# TODO: could be 'internal cat' (issue #1013)
539	tok = lexer.DummyToken(Id.Lit_Chars, '__cat')
540	cat_word = CompoundWord([tok])
541
542	# Blame < because __cat has no location
543	blame_tok = redir_node.redirects[0].op
544	simple = command.Simple(blame_tok, [], [cat_word], None, None,
545	False)
546
547	# MUTATE redir node so it's like $(<file _cat)
548	redir_node.child = simple
549
550	status, stdout_str = self.CaptureStdout(node)
551
552	# OSH has the concept of aborting in the middle of a WORD. We're not
553	# waiting until the command is over!
554	if self.exec_opts.command_sub_errexit():
555	if status != 0:
556	msg = 'Command Sub exited with status %d' % status
557	raise error.ErrExit(status, msg, loc.WordPart(cs_part))
558
559	else:
560	# Set a flag so we check errexit at the same time as bash. Example:
561	#
562	# a=$(false)
563	# echo foo # no matter what comes here, the flag is reset
564	#
565	# Set ONLY until this command node has finished executing.
566
567	# HACK: move this
568	self.cmd_ev.check_command_sub_status = True
569	self.mem.SetLastStatus(status)
570
571	# Runtime errors test case: # $("echo foo > $@")
572	# Why rstrip()?
573	# https://unix.stackexchange.com/questions/17747/why-does-shell-command-substitution-gobble-up-a-trailing-newline-char
574	return stdout_str
575
576	def RunProcessSub(self, cs_part):
577	# type: (CommandSub) -> str
578	"""Process sub creates a forks a process connected to a pipe.
579
580	The pipe is typically passed to another process via a /dev/fd/$FD path.
581
582	Life cycle of a process substitution:
583
584	1. Start with this code
585
586	diff <(seq 3) <(seq 4)
587
588	2. To evaluate the command line, we evaluate every word. The
589	NormalWordEvaluator this method, RunProcessSub(), which does 3 things:
590
591	a. Create a pipe(), getting r and w
592	b. Starts the seq process, which inherits r and w
593	It has a StdoutToPipe() redirect, which means that it dup2(w, 1)
594	and close(r)
595	c. Close the w FD, because neither the shell or 'diff' will write to it.
596	However we must retain 'r', because 'diff' hasn't opened /dev/fd yet!
597	d. We evaluate <(seq 3) to /dev/fd/$r, so "diff" can read from it
598
599	3. Now we're done evaluating every word, so we know the command line of
600	diff, which looks like
601
602	diff /dev/fd/64 /dev/fd/65
603
604	Those are the FDs for the read ends of the pipes we created.
605
606	4. diff inherits a copy of the read end of bot pipes. But it actually
607	calls open() both files passed as argv. (I think this is fine.)
608
609	5. wait() for the diff process.
610
611	6. The shell closes both the read ends of both pipes. Neither us or
612	'diffd' will read again.
613
614	7. The shell waits for both 'seq' processes.
615
616	Related:
617	shopt -s process_sub_fail
618	_process_sub_status
619	"""
620	cs_loc = loc.WordPart(cs_part)
621
622	if not self.exec_opts._allow_process_sub():
623	e_die(
624	"Process subs not allowed here because status wouldn't be checked (strict_errexit)",
625	cs_loc)
626
627	p = self._MakeProcess(cs_part.child, True, self.exec_opts.errtrace())
628
629	r, w = posix.pipe()
630	#log('pipe = %d, %d', r, w)
631
632	op_id = cs_part.left_token.id
633	if op_id == Id.Left_ProcSubIn:
634	# Example: cat < <(head foo.txt)
635	#
636	# The head process should write its stdout to a pipe.
637	redir = process.StdoutToPipe(r,
638	w) # type: process.ChildStateChange
639
640	elif op_id == Id.Left_ProcSubOut:
641	# Example: head foo.txt > >(tac)
642	#
643	# The tac process should read its stdin from a pipe.
644
645	# Note: this example sometimes requires you to hit "enter" in bash and
646	# zsh. WHy?
647	redir = process.StdinFromPipe(r, w)
648
649	else:
650	raise AssertionError()
651
652	p.AddStateChange(redir)
653
654	if self.job_control.Enabled():
655	p.AddStateChange(process.SetPgid(process.OWN_LEADER, self.tracer))
656
657	# Fork, letting the child inherit the pipe file descriptors.
658	p.StartProcess(trace.ProcessSub)
659
660	ps_frame = self.process_sub_stack[-1]
661
662	# Note: bash never waits() on the process, but zsh does. The calling
663	# program needs to read() before we can wait, e.g.
664	# diff <(sort left.txt) <(sort right.txt)
665
666	# After forking, close the end of the pipe we're not using.
667	if op_id == Id.Left_ProcSubIn:
668	posix.close(w) # cat < <(head foo.txt)
669	ps_frame.Append(p, r, cs_loc) # close later
670	elif op_id == Id.Left_ProcSubOut:
671	posix.close(r)
672	#log('Left_ProcSubOut closed %d', r)
673	ps_frame.Append(p, w, cs_loc) # close later
674	else:
675	raise AssertionError()
676
677	# Is /dev Linux-specific?
678	if op_id == Id.Left_ProcSubIn:
679	return '/dev/fd/%d' % r
680
681	elif op_id == Id.Left_ProcSubOut:
682	return '/dev/fd/%d' % w
683
684	else:
685	raise AssertionError()
686
687	def PushRedirects(self, redirects, err_out):
688	# type: (List[RedirValue], List[error.IOError_OSError]) -> None
689	if len(redirects) == 0: # Optimized to avoid allocs
690	return
691	self.fd_state.Push(redirects, err_out)
692
693	def PopRedirects(self, num_redirects, err_out):
694	# type: (int, List[error.IOError_OSError]) -> None
695	if num_redirects == 0: # Optimized to avoid allocs
696	return
697	self.fd_state.Pop(err_out)
698
699	def PushProcessSub(self):
700	# type: () -> None
701	if len(self.clean_frame_pool):
702	# Optimized to avoid allocs
703	new_frame = self.clean_frame_pool.pop()
704	else:
705	new_frame = _ProcessSubFrame()
706	self.process_sub_stack.append(new_frame)
707
708	def PopProcessSub(self, compound_st):
709	# type: (StatusArray) -> None
710	"""This method is called by a context manager, which means we always
711	wait() on the way out, which I think is the right thing.
712
713	We don't always set _process_sub_status, e.g. if some fatal
714	error occurs first, but we always wait.
715	"""
716	frame = self.process_sub_stack.pop()
717	if frame.WasModified():
718	frame.MaybeWaitOnProcessSubs(self.waiter, compound_st)
719	else:
720	# Optimized to avoid allocs
721	self.clean_frame_pool.append(frame)
722
723	# Note: the 3 lists in _ProcessSubFrame are hot in our profiles. It would
724	# be nice to somehow "destroy" them here, rather than letting them become
725	# garbage that needs to be traced.
726
727	# The CommandEvaluator could have a ProcessSubStack, which supports Push(),
728	# Pop(), and Top() of VALUES rather than GC objects?
729
730
731	# vim: sw=4