1import collections
2import subprocess
3import warnings
4
5from . import protocols
6from . import transports
7from .log import logger
8
9
10class BaseSubprocessTransport(transports.SubprocessTransport):
11
12    def __init__(self, loop, protocol, args, shell,
13                 stdin, stdout, stderr, bufsize,
14                 waiter=None, extra=None, **kwargs):
15        super().__init__(extra)
16        self._closed = False
17        self._protocol = protocol
18        self._loop = loop
19        self._proc = None
20        self._pid = None
21        self._returncode = None
22        self._exit_waiters = []
23        self._pending_calls = collections.deque()
24        self._pipes = {}
25        self._finished = False
26
27        if stdin == subprocess.PIPE:
28            self._pipes[0] = None
29        if stdout == subprocess.PIPE:
30            self._pipes[1] = None
31        if stderr == subprocess.PIPE:
32            self._pipes[2] = None
33
34        # Create the child process: set the _proc attribute
35        try:
36            self._start(args=args, shell=shell, stdin=stdin, stdout=stdout,
37                        stderr=stderr, bufsize=bufsize, **kwargs)
38        except:
39            self.close()
40            raise
41
42        self._pid = self._proc.pid
43        self._extra['subprocess'] = self._proc
44
45        if self._loop.get_debug():
46            if isinstance(args, (bytes, str)):
47                program = args
48            else:
49                program = args[0]
50            logger.debug('process %r created: pid %s',
51                         program, self._pid)
52
53        self._loop.create_task(self._connect_pipes(waiter))
54
55    def __repr__(self):
56        info = [self.__class__.__name__]
57        if self._closed:
58            info.append('closed')
59        if self._pid is not None:
60            info.append(f'pid={self._pid}')
61        if self._returncode is not None:
62            info.append(f'returncode={self._returncode}')
63        elif self._pid is not None:
64            info.append('running')
65        else:
66            info.append('not started')
67
68        stdin = self._pipes.get(0)
69        if stdin is not None:
70            info.append(f'stdin={stdin.pipe}')
71
72        stdout = self._pipes.get(1)
73        stderr = self._pipes.get(2)
74        if stdout is not None and stderr is stdout:
75            info.append(f'stdout=stderr={stdout.pipe}')
76        else:
77            if stdout is not None:
78                info.append(f'stdout={stdout.pipe}')
79            if stderr is not None:
80                info.append(f'stderr={stderr.pipe}')
81
82        return '<{}>'.format(' '.join(info))
83
84    def _start(self, args, shell, stdin, stdout, stderr, bufsize, **kwargs):
85        raise NotImplementedError
86
87    def set_protocol(self, protocol):
88        self._protocol = protocol
89
90    def get_protocol(self):
91        return self._protocol
92
93    def is_closing(self):
94        return self._closed
95
96    def close(self):
97        if self._closed:
98            return
99        self._closed = True
100
101        for proto in self._pipes.values():
102            if proto is None:
103                continue
104            proto.pipe.close()
105
106        if (self._proc is not None and
107                # has the child process finished?
108                self._returncode is None and
109                # the child process has finished, but the
110                # transport hasn't been notified yet?
111                self._proc.poll() is None):
112
113            if self._loop.get_debug():
114                logger.warning('Close running child process: kill %r', self)
115
116            try:
117                self._proc.kill()
118            except ProcessLookupError:
119                pass
120
121            # Don't clear the _proc reference yet: _post_init() may still run
122
123    def __del__(self):
124        if not self._closed:
125            warnings.warn(f"unclosed transport {self!r}", ResourceWarning,
126                          source=self)
127            self.close()
128
129    def get_pid(self):
130        return self._pid
131
132    def get_returncode(self):
133        return self._returncode
134
135    def get_pipe_transport(self, fd):
136        if fd in self._pipes:
137            return self._pipes[fd].pipe
138        else:
139            return None
140
141    def _check_proc(self):
142        if self._proc is None:
143            raise ProcessLookupError()
144
145    def send_signal(self, signal):
146        self._check_proc()
147        self._proc.send_signal(signal)
148
149    def terminate(self):
150        self._check_proc()
151        self._proc.terminate()
152
153    def kill(self):
154        self._check_proc()
155        self._proc.kill()
156
157    async def _connect_pipes(self, waiter):
158        try:
159            proc = self._proc
160            loop = self._loop
161
162            if proc.stdin is not None:
163                _, pipe = await loop.connect_write_pipe(
164                    lambda: WriteSubprocessPipeProto(self, 0),
165                    proc.stdin)
166                self._pipes[0] = pipe
167
168            if proc.stdout is not None:
169                _, pipe = await loop.connect_read_pipe(
170                    lambda: ReadSubprocessPipeProto(self, 1),
171                    proc.stdout)
172                self._pipes[1] = pipe
173
174            if proc.stderr is not None:
175                _, pipe = await loop.connect_read_pipe(
176                    lambda: ReadSubprocessPipeProto(self, 2),
177                    proc.stderr)
178                self._pipes[2] = pipe
179
180            assert self._pending_calls is not None
181
182            loop.call_soon(self._protocol.connection_made, self)
183            for callback, data in self._pending_calls:
184                loop.call_soon(callback, *data)
185            self._pending_calls = None
186        except Exception as exc:
187            if waiter is not None and not waiter.cancelled():
188                waiter.set_exception(exc)
189        else:
190            if waiter is not None and not waiter.cancelled():
191                waiter.set_result(None)
192
193    def _call(self, cb, *data):
194        if self._pending_calls is not None:
195            self._pending_calls.append((cb, data))
196        else:
197            self._loop.call_soon(cb, *data)
198
199    def _pipe_connection_lost(self, fd, exc):
200        self._call(self._protocol.pipe_connection_lost, fd, exc)
201        self._try_finish()
202
203    def _pipe_data_received(self, fd, data):
204        self._call(self._protocol.pipe_data_received, fd, data)
205
206    def _process_exited(self, returncode):
207        assert returncode is not None, returncode
208        assert self._returncode is None, self._returncode
209        if self._loop.get_debug():
210            logger.info('%r exited with return code %r', self, returncode)
211        self._returncode = returncode
212        if self._proc.returncode is None:
213            # asyncio uses a child watcher: copy the status into the Popen
214            # object. On Python 3.6, it is required to avoid a ResourceWarning.
215            self._proc.returncode = returncode
216        self._call(self._protocol.process_exited)
217        self._try_finish()
218
219        # wake up futures waiting for wait()
220        for waiter in self._exit_waiters:
221            if not waiter.cancelled():
222                waiter.set_result(returncode)
223        self._exit_waiters = None
224
225    async def _wait(self):
226        """Wait until the process exit and return the process return code.
227
228        This method is a coroutine."""
229        if self._returncode is not None:
230            return self._returncode
231
232        waiter = self._loop.create_future()
233        self._exit_waiters.append(waiter)
234        return await waiter
235
236    def _try_finish(self):
237        assert not self._finished
238        if self._returncode is None:
239            return
240        if all(p is not None and p.disconnected
241               for p in self._pipes.values()):
242            self._finished = True
243            self._call(self._call_connection_lost, None)
244
245    def _call_connection_lost(self, exc):
246        try:
247            self._protocol.connection_lost(exc)
248        finally:
249            self._loop = None
250            self._proc = None
251            self._protocol = None
252
253
254class WriteSubprocessPipeProto(protocols.BaseProtocol):
255
256    def __init__(self, proc, fd):
257        self.proc = proc
258        self.fd = fd
259        self.pipe = None
260        self.disconnected = False
261
262    def connection_made(self, transport):
263        self.pipe = transport
264
265    def __repr__(self):
266        return f'<{self.__class__.__name__} fd={self.fd} pipe={self.pipe!r}>'
267
268    def connection_lost(self, exc):
269        self.disconnected = True
270        self.proc._pipe_connection_lost(self.fd, exc)
271        self.proc = None
272
273    def pause_writing(self):
274        self.proc._protocol.pause_writing()
275
276    def resume_writing(self):
277        self.proc._protocol.resume_writing()
278
279
280class ReadSubprocessPipeProto(WriteSubprocessPipeProto,
281                              protocols.Protocol):
282
283    def data_received(self, data):
284        self.proc._pipe_data_received(self.fd, data)
285