subprocessio.py
476 lines
| 15.9 KiB
| text/x-python
|
PythonLexer
/ vcsserver / subprocessio.py
r0 | """ | |||
Module provides a class allowing to wrap communication over subprocess.Popen | ||||
input, output, error streams into a meaningfull, non-blocking, concurrent | ||||
stream processor exposing the output data as an iterator fitting to be a | ||||
return value passed by a WSGI applicaiton to a WSGI server per PEP 3333. | ||||
Copyright (c) 2011 Daniel Dotsenko <dotsa[at]hotmail.com> | ||||
This file is part of git_http_backend.py Project. | ||||
git_http_backend.py Project is free software: you can redistribute it and/or | ||||
modify it under the terms of the GNU Lesser General Public License as | ||||
published by the Free Software Foundation, either version 2.1 of the License, | ||||
or (at your option) any later version. | ||||
git_http_backend.py Project is distributed in the hope that it will be useful, | ||||
but WITHOUT ANY WARRANTY; without even the implied warranty of | ||||
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | ||||
GNU Lesser General Public License for more details. | ||||
You should have received a copy of the GNU Lesser General Public License | ||||
along with git_http_backend.py Project. | ||||
If not, see <http://www.gnu.org/licenses/>. | ||||
""" | ||||
import os | ||||
import subprocess32 as subprocess | ||||
from collections import deque | ||||
from threading import Event, Thread | ||||
class StreamFeeder(Thread): | ||||
""" | ||||
Normal writing into pipe-like is blocking once the buffer is filled. | ||||
This thread allows a thread to seep data from a file-like into a pipe | ||||
without blocking the main thread. | ||||
We close inpipe once the end of the source stream is reached. | ||||
""" | ||||
def __init__(self, source): | ||||
super(StreamFeeder, self).__init__() | ||||
self.daemon = True | ||||
filelike = False | ||||
self.bytes = bytes() | ||||
if type(source) in (type(''), bytes, bytearray): # string-like | ||||
self.bytes = bytes(source) | ||||
else: # can be either file pointer or file-like | ||||
if type(source) in (int, long): # file pointer it is | ||||
## converting file descriptor (int) stdin into file-like | ||||
try: | ||||
source = os.fdopen(source, 'rb', 16384) | ||||
except Exception: | ||||
pass | ||||
# let's see if source is file-like by now | ||||
try: | ||||
filelike = source.read | ||||
except Exception: | ||||
pass | ||||
if not filelike and not self.bytes: | ||||
raise TypeError("StreamFeeder's source object must be a readable " | ||||
"file-like, a file descriptor, or a string-like.") | ||||
self.source = source | ||||
self.readiface, self.writeiface = os.pipe() | ||||
def run(self): | ||||
t = self.writeiface | ||||
if self.bytes: | ||||
os.write(t, self.bytes) | ||||
else: | ||||
s = self.source | ||||
b = s.read(4096) | ||||
while b: | ||||
os.write(t, b) | ||||
b = s.read(4096) | ||||
os.close(t) | ||||
@property | ||||
def output(self): | ||||
return self.readiface | ||||
class InputStreamChunker(Thread): | ||||
def __init__(self, source, target, buffer_size, chunk_size): | ||||
super(InputStreamChunker, self).__init__() | ||||
self.daemon = True # die die die. | ||||
self.source = source | ||||
self.target = target | ||||
self.chunk_count_max = int(buffer_size / chunk_size) + 1 | ||||
self.chunk_size = chunk_size | ||||
self.data_added = Event() | ||||
self.data_added.clear() | ||||
self.keep_reading = Event() | ||||
self.keep_reading.set() | ||||
self.EOF = Event() | ||||
self.EOF.clear() | ||||
self.go = Event() | ||||
self.go.set() | ||||
def stop(self): | ||||
self.go.clear() | ||||
self.EOF.set() | ||||
try: | ||||
# this is not proper, but is done to force the reader thread let | ||||
# go of the input because, if successful, .close() will send EOF | ||||
# down the pipe. | ||||
self.source.close() | ||||
except: | ||||
pass | ||||
def run(self): | ||||
s = self.source | ||||
t = self.target | ||||
cs = self.chunk_size | ||||
ccm = self.chunk_count_max | ||||
kr = self.keep_reading | ||||
da = self.data_added | ||||
go = self.go | ||||
try: | ||||
b = s.read(cs) | ||||
except ValueError: | ||||
b = '' | ||||
while b and go.is_set(): | ||||
if len(t) > ccm: | ||||
kr.clear() | ||||
kr.wait(2) | ||||
# # this only works on 2.7.x and up | ||||
# if not kr.wait(10): | ||||
# raise Exception("Timed out while waiting for input to be read.") | ||||
# instead we'll use this | ||||
if len(t) > ccm + 3: | ||||
raise IOError( | ||||
"Timed out while waiting for input from subprocess.") | ||||
t.append(b) | ||||
da.set() | ||||
b = s.read(cs) | ||||
self.EOF.set() | ||||
da.set() # for cases when done but there was no input. | ||||
class BufferedGenerator(object): | ||||
""" | ||||
Class behaves as a non-blocking, buffered pipe reader. | ||||
Reads chunks of data (through a thread) | ||||
from a blocking pipe, and attaches these to an array (Deque) of chunks. | ||||
Reading is halted in the thread when max chunks is internally buffered. | ||||
The .next() may operate in blocking or non-blocking fashion by yielding | ||||
'' if no data is ready | ||||
to be sent or by not returning until there is some data to send | ||||
When we get EOF from underlying source pipe we raise the marker to raise | ||||
StopIteration after the last chunk of data is yielded. | ||||
""" | ||||
def __init__(self, source, buffer_size=65536, chunk_size=4096, | ||||
starting_values=[], bottomless=False): | ||||
if bottomless: | ||||
maxlen = int(buffer_size / chunk_size) | ||||
else: | ||||
maxlen = None | ||||
self.data = deque(starting_values, maxlen) | ||||
self.worker = InputStreamChunker(source, self.data, buffer_size, | ||||
chunk_size) | ||||
if starting_values: | ||||
self.worker.data_added.set() | ||||
self.worker.start() | ||||
#################### | ||||
# Generator's methods | ||||
#################### | ||||
def __iter__(self): | ||||
return self | ||||
def next(self): | ||||
while not len(self.data) and not self.worker.EOF.is_set(): | ||||
self.worker.data_added.clear() | ||||
self.worker.data_added.wait(0.2) | ||||
if len(self.data): | ||||
self.worker.keep_reading.set() | ||||
return bytes(self.data.popleft()) | ||||
elif self.worker.EOF.is_set(): | ||||
raise StopIteration | ||||
def throw(self, type, value=None, traceback=None): | ||||
if not self.worker.EOF.is_set(): | ||||
raise type(value) | ||||
def start(self): | ||||
self.worker.start() | ||||
def stop(self): | ||||
self.worker.stop() | ||||
def close(self): | ||||
try: | ||||
self.worker.stop() | ||||
self.throw(GeneratorExit) | ||||
except (GeneratorExit, StopIteration): | ||||
pass | ||||
def __del__(self): | ||||
self.close() | ||||
#################### | ||||
# Threaded reader's infrastructure. | ||||
#################### | ||||
@property | ||||
def input(self): | ||||
return self.worker.w | ||||
@property | ||||
def data_added_event(self): | ||||
return self.worker.data_added | ||||
@property | ||||
def data_added(self): | ||||
return self.worker.data_added.is_set() | ||||
@property | ||||
def reading_paused(self): | ||||
return not self.worker.keep_reading.is_set() | ||||
@property | ||||
def done_reading_event(self): | ||||
""" | ||||
Done_reding does not mean that the iterator's buffer is empty. | ||||
Iterator might have done reading from underlying source, but the read | ||||
chunks might still be available for serving through .next() method. | ||||
:returns: An Event class instance. | ||||
""" | ||||
return self.worker.EOF | ||||
@property | ||||
def done_reading(self): | ||||
""" | ||||
Done_reding does not mean that the iterator's buffer is empty. | ||||
Iterator might have done reading from underlying source, but the read | ||||
chunks might still be available for serving through .next() method. | ||||
:returns: An Bool value. | ||||
""" | ||||
return self.worker.EOF.is_set() | ||||
@property | ||||
def length(self): | ||||
""" | ||||
returns int. | ||||
This is the lenght of the que of chunks, not the length of | ||||
the combined contents in those chunks. | ||||
__len__() cannot be meaningfully implemented because this | ||||
reader is just flying throuh a bottomless pit content and | ||||
can only know the lenght of what it already saw. | ||||
If __len__() on WSGI server per PEP 3333 returns a value, | ||||
the responce's length will be set to that. In order not to | ||||
confuse WSGI PEP3333 servers, we will not implement __len__ | ||||
at all. | ||||
""" | ||||
return len(self.data) | ||||
def prepend(self, x): | ||||
self.data.appendleft(x) | ||||
def append(self, x): | ||||
self.data.append(x) | ||||
def extend(self, o): | ||||
self.data.extend(o) | ||||
def __getitem__(self, i): | ||||
return self.data[i] | ||||
class SubprocessIOChunker(object): | ||||
""" | ||||
Processor class wrapping handling of subprocess IO. | ||||
.. important:: | ||||
Watch out for the method `__del__` on this class. If this object | ||||
is deleted, it will kill the subprocess, so avoid to | ||||
return the `output` attribute or usage of it like in the following | ||||
example:: | ||||
# `args` expected to run a program that produces a lot of output | ||||
output = ''.join(SubprocessIOChunker( | ||||
args, shell=False, inputstream=inputstream, env=environ).output) | ||||
# `output` will not contain all the data, because the __del__ method | ||||
# has already killed the subprocess in this case before all output | ||||
# has been consumed. | ||||
In a way, this is a "communicate()" replacement with a twist. | ||||
- We are multithreaded. Writing in and reading out, err are all sep threads. | ||||
- We support concurrent (in and out) stream processing. | ||||
- The output is not a stream. It's a queue of read string (bytes, not unicode) | ||||
chunks. The object behaves as an iterable. You can "for chunk in obj:" us. | ||||
- We are non-blocking in more respects than communicate() | ||||
(reading from subprocess out pauses when internal buffer is full, but | ||||
does not block the parent calling code. On the flip side, reading from | ||||
slow-yielding subprocess may block the iteration until data shows up. This | ||||
does not block the parallel inpipe reading occurring parallel thread.) | ||||
The purpose of the object is to allow us to wrap subprocess interactions into | ||||
and interable that can be passed to a WSGI server as the application's return | ||||
value. Because of stream-processing-ability, WSGI does not have to read ALL | ||||
of the subprocess's output and buffer it, before handing it to WSGI server for | ||||
HTTP response. Instead, the class initializer reads just a bit of the stream | ||||
to figure out if error ocurred or likely to occur and if not, just hands the | ||||
further iteration over subprocess output to the server for completion of HTTP | ||||
response. | ||||
The real or perceived subprocess error is trapped and raised as one of | ||||
EnvironmentError family of exceptions | ||||
Example usage: | ||||
# try: | ||||
# answer = SubprocessIOChunker( | ||||
# cmd, | ||||
# input, | ||||
# buffer_size = 65536, | ||||
# chunk_size = 4096 | ||||
# ) | ||||
# except (EnvironmentError) as e: | ||||
# print str(e) | ||||
# raise e | ||||
# | ||||
# return answer | ||||
""" | ||||
# TODO: johbo: This is used to make sure that the open end of the PIPE | ||||
# is closed in the end. It would be way better to wrap this into an | ||||
# object, so that it is closed automatically once it is consumed or | ||||
# something similar. | ||||
_close_input_fd = None | ||||
_closed = False | ||||
def __init__(self, cmd, inputstream=None, buffer_size=65536, | ||||
chunk_size=4096, starting_values=[], fail_on_stderr=True, | ||||
fail_on_return_code=True, **kwargs): | ||||
""" | ||||
Initializes SubprocessIOChunker | ||||
:param cmd: A Subprocess.Popen style "cmd". Can be string or array of strings | ||||
:param inputstream: (Default: None) A file-like, string, or file pointer. | ||||
:param buffer_size: (Default: 65536) A size of total buffer per stream in bytes. | ||||
:param chunk_size: (Default: 4096) A max size of a chunk. Actual chunk may be smaller. | ||||
:param starting_values: (Default: []) An array of strings to put in front of output que. | ||||
:param fail_on_stderr: (Default: True) Whether to raise an exception in | ||||
case something is written to stderr. | ||||
:param fail_on_return_code: (Default: True) Whether to raise an | ||||
exception if the return code is not 0. | ||||
""" | ||||
if inputstream: | ||||
input_streamer = StreamFeeder(inputstream) | ||||
input_streamer.start() | ||||
inputstream = input_streamer.output | ||||
self._close_input_fd = inputstream | ||||
self._fail_on_stderr = fail_on_stderr | ||||
self._fail_on_return_code = fail_on_return_code | ||||
_shell = kwargs.get('shell', True) | ||||
kwargs['shell'] = _shell | ||||
_p = subprocess.Popen(cmd, bufsize=-1, | ||||
stdin=inputstream, | ||||
stdout=subprocess.PIPE, | ||||
stderr=subprocess.PIPE, | ||||
**kwargs) | ||||
bg_out = BufferedGenerator(_p.stdout, buffer_size, chunk_size, | ||||
starting_values) | ||||
bg_err = BufferedGenerator(_p.stderr, 16000, 1, bottomless=True) | ||||
while not bg_out.done_reading and not bg_out.reading_paused and not bg_err.length: | ||||
# doing this until we reach either end of file, or end of buffer. | ||||
bg_out.data_added_event.wait(1) | ||||
bg_out.data_added_event.clear() | ||||
# at this point it's still ambiguous if we are done reading or just full buffer. | ||||
# Either way, if error (returned by ended process, or implied based on | ||||
# presence of stuff in stderr output) we error out. | ||||
# Else, we are happy. | ||||
_returncode = _p.poll() | ||||
if ((_returncode and fail_on_return_code) or | ||||
(fail_on_stderr and _returncode is None and bg_err.length)): | ||||
try: | ||||
_p.terminate() | ||||
except Exception: | ||||
pass | ||||
bg_out.stop() | ||||
bg_err.stop() | ||||
if fail_on_stderr: | ||||
err = ''.join(bg_err) | ||||
raise EnvironmentError( | ||||
"Subprocess exited due to an error:\n" + err) | ||||
if _returncode and fail_on_return_code: | ||||
err = ''.join(bg_err) | ||||
raise EnvironmentError( | ||||
"Subprocess exited with non 0 ret code:%s: stderr:%s" % ( | ||||
_returncode, err)) | ||||
self.process = _p | ||||
self.output = bg_out | ||||
self.error = bg_err | ||||
def __iter__(self): | ||||
return self | ||||
def next(self): | ||||
# Note: mikhail: We need to be sure that we are checking the return | ||||
# code after the stdout stream is closed. Some processes, e.g. git | ||||
# are doing some magic in between closing stdout and terminating the | ||||
# process and, as a result, we are not getting return code on "slow" | ||||
# systems. | ||||
stop_iteration = None | ||||
try: | ||||
result = self.output.next() | ||||
except StopIteration as e: | ||||
stop_iteration = e | ||||
if self.process.poll() and self._fail_on_return_code: | ||||
err = '%s' % ''.join(self.error) | ||||
raise EnvironmentError( | ||||
"Subprocess exited due to an error:\n" + err) | ||||
if stop_iteration: | ||||
raise stop_iteration | ||||
return result | ||||
def throw(self, type, value=None, traceback=None): | ||||
if self.output.length or not self.output.done_reading: | ||||
raise type(value) | ||||
def close(self): | ||||
if self._closed: | ||||
return | ||||
self._closed = True | ||||
try: | ||||
self.process.terminate() | ||||
except: | ||||
pass | ||||
if self._close_input_fd: | ||||
os.close(self._close_input_fd) | ||||
try: | ||||
self.output.close() | ||||
except: | ||||
pass | ||||
try: | ||||
self.error.close() | ||||
except: | ||||
pass | ||||
def __del__(self): | ||||
self.close() | ||||