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subprocessio.py
405 lines | 13.2 KiB | text/x-python | PythonLexer
'''
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@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 subprocess
import threading
from collections import deque
class StreamFeeder(threading.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(threading.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 = threading.Event()
self.data_added.clear()
self.keep_reading = threading.Event()
self.keep_reading.set()
self.EOF = threading.Event()
self.EOF.clear()
self.go = threading.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
b = s.read(cs)
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():
'''
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.
@return 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.
@return 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.
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
'''
def __init__(self, cmd, inputstream=None, buffer_size=65536,
chunk_size=4096, starting_values=[], **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.
'''
if inputstream:
input_streamer = StreamFeeder(inputstream)
input_streamer.start()
inputstream = input_streamer.output
_p = subprocess.Popen(cmd,
bufsize=-1,
shell=True,
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 or (_returncode == None and bg_err.length):
try:
_p.terminate()
except:
pass
bg_out.stop()
bg_err.stop()
err = '%r' % ''.join(bg_err)
raise EnvironmentError("Subprocess exited due to an error.\n" + err)
self.process = _p
self.output = bg_out
self.error = bg_err
def __iter__(self):
return self
def next(self):
if self.process.poll():
err = '%r' % ''.join(self.error)
raise EnvironmentError("Subprocess exited due to an error:\n" + err)
return self.output.next()
def throw(self, type, value=None, traceback=None):
if self.output.length or not self.output.done_reading:
raise type(value)
def close(self):
try:
self.process.terminate()
except:
pass
try:
self.output.close()
except:
pass
try:
self.error.close()
except:
pass
def __del__(self):
self.close()