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