/usr/lib/python3/dist-packages/eventlet/wsgi.py is in python3-eventlet 0.19.0-6.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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import functools
import os
import sys
import time
import traceback
import types
import warnings
from eventlet import greenio
from eventlet import greenpool
from eventlet import support
from eventlet.green import BaseHTTPServer
from eventlet.green import socket
from eventlet.support import six
from eventlet.support.six.moves import urllib
DEFAULT_MAX_SIMULTANEOUS_REQUESTS = 1024
DEFAULT_MAX_HTTP_VERSION = 'HTTP/1.1'
MAX_REQUEST_LINE = 8192
MAX_HEADER_LINE = 8192
MAX_TOTAL_HEADER_SIZE = 65536
MINIMUM_CHUNK_SIZE = 4096
# %(client_port)s is also available
DEFAULT_LOG_FORMAT = ('%(client_ip)s - - [%(date_time)s] "%(request_line)s"'
' %(status_code)s %(body_length)s %(wall_seconds).6f')
is_accepting = True
__all__ = ['server', 'format_date_time']
# Weekday and month names for HTTP date/time formatting; always English!
_weekdayname = ["Mon", "Tue", "Wed", "Thu", "Fri", "Sat", "Sun"]
_monthname = [None, # Dummy so we can use 1-based month numbers
"Jan", "Feb", "Mar", "Apr", "May", "Jun",
"Jul", "Aug", "Sep", "Oct", "Nov", "Dec"]
def format_date_time(timestamp):
"""Formats a unix timestamp into an HTTP standard string."""
year, month, day, hh, mm, ss, wd, _y, _z = time.gmtime(timestamp)
return "%s, %02d %3s %4d %02d:%02d:%02d GMT" % (
_weekdayname[wd], day, _monthname[month], year, hh, mm, ss
)
# Collections of error codes to compare against. Not all attributes are set
# on errno module on all platforms, so some are literals :(
BAD_SOCK = set((errno.EBADF, 10053))
BROKEN_SOCK = set((errno.EPIPE, errno.ECONNRESET))
class ChunkReadError(ValueError):
pass
# special flag return value for apps
class _AlreadyHandled(object):
def __iter__(self):
return self
def next(self):
raise StopIteration
__next__ = next
ALREADY_HANDLED = _AlreadyHandled()
class Input(object):
def __init__(self,
rfile,
content_length,
sock,
wfile=None,
wfile_line=None,
chunked_input=False):
self.rfile = rfile
self._sock = sock
if content_length is not None:
content_length = int(content_length)
self.content_length = content_length
self.wfile = wfile
self.wfile_line = wfile_line
self.position = 0
self.chunked_input = chunked_input
self.chunk_length = -1
# (optional) headers to send with a "100 Continue" response. Set by
# calling set_hundred_continue_respose_headers() on env['wsgi.input']
self.hundred_continue_headers = None
self.is_hundred_continue_response_sent = False
def send_hundred_continue_response(self):
towrite = []
# 100 Continue status line
towrite.append(self.wfile_line)
# Optional headers
if self.hundred_continue_headers is not None:
# 100 Continue headers
for header in self.hundred_continue_headers:
towrite.append(six.b('%s: %s\r\n' % header))
# Blank line
towrite.append(b'\r\n')
self.wfile.writelines(towrite)
self.wfile.flush()
# Reinitialize chunk_length (expect more data)
self.chunk_length = -1
def _do_read(self, reader, length=None):
if self.wfile is not None and not self.is_hundred_continue_response_sent:
# 100 Continue response
self.send_hundred_continue_response()
self.is_hundred_continue_response_sent = True
if (self.content_length is not None) and (
length is None or length > self.content_length - self.position):
length = self.content_length - self.position
if not length:
return b''
try:
read = reader(length)
except greenio.SSL.ZeroReturnError:
read = b''
self.position += len(read)
return read
def _chunked_read(self, rfile, length=None, use_readline=False):
if self.wfile is not None and not self.is_hundred_continue_response_sent:
# 100 Continue response
self.send_hundred_continue_response()
self.is_hundred_continue_response_sent = True
try:
if length == 0:
return ""
if length and length < 0:
length = None
if use_readline:
reader = self.rfile.readline
else:
reader = self.rfile.read
response = []
while self.chunk_length != 0:
maxreadlen = self.chunk_length - self.position
if length is not None and length < maxreadlen:
maxreadlen = length
if maxreadlen > 0:
data = reader(maxreadlen)
if not data:
self.chunk_length = 0
raise IOError("unexpected end of file while parsing chunked data")
datalen = len(data)
response.append(data)
self.position += datalen
if self.chunk_length == self.position:
rfile.readline()
if length is not None:
length -= datalen
if length == 0:
break
if use_readline and data[-1] == "\n":
break
else:
try:
self.chunk_length = int(rfile.readline().split(b";", 1)[0], 16)
except ValueError as err:
raise ChunkReadError(err)
self.position = 0
if self.chunk_length == 0:
rfile.readline()
except greenio.SSL.ZeroReturnError:
pass
return b''.join(response)
def read(self, length=None):
if self.chunked_input:
return self._chunked_read(self.rfile, length)
return self._do_read(self.rfile.read, length)
def readline(self, size=None):
if self.chunked_input:
return self._chunked_read(self.rfile, size, True)
else:
return self._do_read(self.rfile.readline, size)
def readlines(self, hint=None):
return self._do_read(self.rfile.readlines, hint)
def __iter__(self):
return iter(self.read, b'')
def get_socket(self):
return self._sock
def set_hundred_continue_response_headers(self, headers,
capitalize_response_headers=True):
# Response headers capitalization (default)
# CONTent-TYpe: TExt/PlaiN -> Content-Type: TExt/PlaiN
# Per HTTP RFC standard, header name is case-insensitive.
# Please, fix your client to ignore header case if possible.
if capitalize_response_headers:
headers = [
('-'.join([x.capitalize() for x in key.split('-')]), value)
for key, value in headers]
self.hundred_continue_headers = headers
def discard(self, buffer_size=16 << 10):
while self.read(buffer_size):
pass
class HeaderLineTooLong(Exception):
pass
class HeadersTooLarge(Exception):
pass
def get_logger(log, debug):
if callable(getattr(log, 'info', None)) \
and callable(getattr(log, 'debug', None)):
return log
else:
return LoggerFileWrapper(log, debug)
class LoggerFileWrapper(object):
def __init__(self, log, debug):
self.log = log
self._debug = debug
def error(self, msg, *args, **kwargs):
self.write(msg, *args)
def info(self, msg, *args, **kwargs):
self.write(msg, *args)
def debug(self, msg, *args, **kwargs):
if self._debug:
self.write(msg, *args)
def write(self, msg, *args):
msg = msg + '\n'
if args:
msg = msg % args
self.log.write(msg)
class FileObjectForHeaders(object):
def __init__(self, fp):
self.fp = fp
self.total_header_size = 0
def readline(self, size=-1):
sz = size
if size < 0:
sz = MAX_HEADER_LINE
rv = self.fp.readline(sz)
if len(rv) >= MAX_HEADER_LINE:
raise HeaderLineTooLong()
self.total_header_size += len(rv)
if self.total_header_size > MAX_TOTAL_HEADER_SIZE:
raise HeadersTooLarge()
return rv
class HttpProtocol(BaseHTTPServer.BaseHTTPRequestHandler):
protocol_version = 'HTTP/1.1'
minimum_chunk_size = MINIMUM_CHUNK_SIZE
capitalize_response_headers = True
# https://github.com/eventlet/eventlet/issues/295
# Stdlib default is 0 (unbuffered), but then `wfile.writelines()` looses data
# so before going back to unbuffered, remove any usage of `writelines`.
wbufsize = 16 << 10
def setup(self):
# overriding SocketServer.setup to correctly handle SSL.Connection objects
conn = self.connection = self.request
# TCP_QUICKACK is a better alternative to disabling Nagle's algorithm
# https://news.ycombinator.com/item?id=10607422
if getattr(socket, 'TCP_QUICKACK', None):
try:
conn.setsockopt(socket.IPPROTO_TCP, socket.TCP_QUICKACK, True)
except socket.error:
pass
try:
self.rfile = conn.makefile('rb', self.rbufsize)
self.wfile = conn.makefile('wb', self.wbufsize)
except (AttributeError, NotImplementedError):
if hasattr(conn, 'send') and hasattr(conn, 'recv'):
# it's an SSL.Connection
self.rfile = socket._fileobject(conn, "rb", self.rbufsize)
self.wfile = socket._fileobject(conn, "wb", self.wbufsize)
else:
# it's a SSLObject, or a martian
raise NotImplementedError("wsgi.py doesn't support sockets "
"of type %s" % type(conn))
def handle_one_request(self):
if self.server.max_http_version:
self.protocol_version = self.server.max_http_version
if self.rfile.closed:
self.close_connection = 1
return
try:
self.raw_requestline = self.rfile.readline(self.server.url_length_limit)
if len(self.raw_requestline) == self.server.url_length_limit:
self.wfile.write(
b"HTTP/1.0 414 Request URI Too Long\r\n"
b"Connection: close\r\nContent-length: 0\r\n\r\n")
self.close_connection = 1
return
except greenio.SSL.ZeroReturnError:
self.raw_requestline = ''
except socket.error as e:
if support.get_errno(e) not in BAD_SOCK:
raise
self.raw_requestline = ''
if not self.raw_requestline:
self.close_connection = 1
return
orig_rfile = self.rfile
try:
self.rfile = FileObjectForHeaders(self.rfile)
if not self.parse_request():
return
except HeaderLineTooLong:
self.wfile.write(
b"HTTP/1.0 400 Header Line Too Long\r\n"
b"Connection: close\r\nContent-length: 0\r\n\r\n")
self.close_connection = 1
return
except HeadersTooLarge:
self.wfile.write(
b"HTTP/1.0 400 Headers Too Large\r\n"
b"Connection: close\r\nContent-length: 0\r\n\r\n")
self.close_connection = 1
return
finally:
self.rfile = orig_rfile
content_length = self.headers.get('content-length')
if content_length:
try:
int(content_length)
except ValueError:
self.wfile.write(
b"HTTP/1.0 400 Bad Request\r\n"
b"Connection: close\r\nContent-length: 0\r\n\r\n")
self.close_connection = 1
return
self.environ = self.get_environ()
self.application = self.server.app
try:
self.server.outstanding_requests += 1
try:
self.handle_one_response()
except socket.error as e:
# Broken pipe, connection reset by peer
if support.get_errno(e) not in BROKEN_SOCK:
raise
finally:
self.server.outstanding_requests -= 1
def handle_one_response(self):
start = time.time()
headers_set = []
headers_sent = []
wfile = self.wfile
result = None
use_chunked = [False]
length = [0]
status_code = [200]
def write(data):
towrite = []
if not headers_set:
raise AssertionError("write() before start_response()")
elif not headers_sent:
status, response_headers = headers_set
headers_sent.append(1)
header_list = [header[0].lower() for header in response_headers]
towrite.append(six.b('%s %s\r\n' % (self.protocol_version, status)))
for header in response_headers:
towrite.append(six.b('%s: %s\r\n' % header))
# send Date header?
if 'date' not in header_list:
towrite.append(six.b('Date: %s\r\n' % (format_date_time(time.time()),)))
client_conn = self.headers.get('Connection', '').lower()
send_keep_alive = False
if self.close_connection == 0 and \
self.server.keepalive and (client_conn == 'keep-alive' or
(self.request_version == 'HTTP/1.1' and
not client_conn == 'close')):
# only send keep-alives back to clients that sent them,
# it's redundant for 1.1 connections
send_keep_alive = (client_conn == 'keep-alive')
self.close_connection = 0
else:
self.close_connection = 1
if 'content-length' not in header_list:
if self.request_version == 'HTTP/1.1':
use_chunked[0] = True
towrite.append(b'Transfer-Encoding: chunked\r\n')
elif 'content-length' not in header_list:
# client is 1.0 and therefore must read to EOF
self.close_connection = 1
if self.close_connection:
towrite.append(b'Connection: close\r\n')
elif send_keep_alive:
towrite.append(b'Connection: keep-alive\r\n')
towrite.append(b'\r\n')
# end of header writing
if use_chunked[0]:
# Write the chunked encoding
towrite.append(six.b("%x" % (len(data),)) + b"\r\n" + data + b"\r\n")
else:
towrite.append(data)
wfile.writelines(towrite)
wfile.flush()
length[0] = length[0] + sum(map(len, towrite))
def start_response(status, response_headers, exc_info=None):
status_code[0] = status.split()[0]
if exc_info:
try:
if headers_sent:
# Re-raise original exception if headers sent
six.reraise(exc_info[0], exc_info[1], exc_info[2])
finally:
# Avoid dangling circular ref
exc_info = None
# Response headers capitalization
# CONTent-TYpe: TExt/PlaiN -> Content-Type: TExt/PlaiN
# Per HTTP RFC standard, header name is case-insensitive.
# Please, fix your client to ignore header case if possible.
if self.capitalize_response_headers:
response_headers = [
('-'.join([x.capitalize() for x in key.split('-')]), value)
for key, value in response_headers]
headers_set[:] = [status, response_headers]
return write
try:
try:
result = self.application(self.environ, start_response)
if (isinstance(result, _AlreadyHandled)
or isinstance(getattr(result, '_obj', None), _AlreadyHandled)):
self.close_connection = 1
return
# Set content-length if possible
if not headers_sent and hasattr(result, '__len__') and \
'Content-Length' not in [h for h, _v in headers_set[1]]:
headers_set[1].append(('Content-Length', str(sum(map(len, result)))))
towrite = []
towrite_size = 0
just_written_size = 0
minimum_write_chunk_size = int(self.environ.get(
'eventlet.minimum_write_chunk_size', self.minimum_chunk_size))
for data in result:
if len(data) == 0:
continue
if isinstance(data, six.text_type):
data = data.encode('ascii')
towrite.append(data)
towrite_size += len(data)
if towrite_size >= minimum_write_chunk_size:
write(b''.join(towrite))
towrite = []
just_written_size = towrite_size
towrite_size = 0
if towrite:
just_written_size = towrite_size
write(b''.join(towrite))
if not headers_sent or (use_chunked[0] and just_written_size):
write(b'')
except Exception:
self.close_connection = 1
tb = traceback.format_exc()
self.server.log.info(tb)
if not headers_sent:
err_body = six.b(tb) if self.server.debug else b''
start_response("500 Internal Server Error",
[('Content-type', 'text/plain'),
('Content-length', len(err_body))])
write(err_body)
finally:
if hasattr(result, 'close'):
result.close()
request_input = self.environ['eventlet.input']
if (request_input.chunked_input or
request_input.position < (request_input.content_length or 0)):
# Read and discard body if there was no pending 100-continue
if not request_input.wfile and self.close_connection == 0:
try:
request_input.discard()
except ChunkReadError as e:
self.close_connection = 1
self.server.log.error((
'chunked encoding error while discarding request body.'
+ ' ip={0} request="{1}" error="{2}"').format(
self.get_client_ip(), self.requestline, e,
))
finish = time.time()
for hook, args, kwargs in self.environ['eventlet.posthooks']:
hook(self.environ, *args, **kwargs)
if self.server.log_output:
self.server.log.info(self.server.log_format % {
'client_ip': self.get_client_ip(),
'client_port': self.client_address[1],
'date_time': self.log_date_time_string(),
'request_line': self.requestline,
'status_code': status_code[0],
'body_length': length[0],
'wall_seconds': finish - start,
})
def get_client_ip(self):
client_ip = self.client_address[0]
if self.server.log_x_forwarded_for:
forward = self.headers.get('X-Forwarded-For', '').replace(' ', '')
if forward:
client_ip = "%s,%s" % (forward, client_ip)
return client_ip
def get_environ(self):
env = self.server.get_environ()
env['REQUEST_METHOD'] = self.command
env['SCRIPT_NAME'] = ''
pq = self.path.split('?', 1)
env['RAW_PATH_INFO'] = pq[0]
env['PATH_INFO'] = urllib.parse.unquote(pq[0])
if len(pq) > 1:
env['QUERY_STRING'] = pq[1]
ct = self.headers.get('content-type')
if ct is None:
try:
ct = self.headers.type
except AttributeError:
ct = self.headers.get_content_type()
env['CONTENT_TYPE'] = ct
length = self.headers.get('content-length')
if length:
env['CONTENT_LENGTH'] = length
env['SERVER_PROTOCOL'] = 'HTTP/1.0'
host, port = self.request.getsockname()[:2]
env['SERVER_NAME'] = host
env['SERVER_PORT'] = str(port)
env['REMOTE_ADDR'] = self.client_address[0]
env['REMOTE_PORT'] = str(self.client_address[1])
env['GATEWAY_INTERFACE'] = 'CGI/1.1'
try:
headers = self.headers.headers
except AttributeError:
headers = self.headers._headers
else:
headers = [h.split(':', 1) for h in headers]
env['headers_raw'] = headers_raw = tuple((k, v.strip()) for k, v in headers)
for k, v in headers_raw:
k = k.replace('-', '_').upper()
if k in env:
continue
envk = 'HTTP_' + k
if envk in env:
env[envk] += ',' + v
else:
env[envk] = v
if env.get('HTTP_EXPECT') == '100-continue':
wfile = self.wfile
wfile_line = b'HTTP/1.1 100 Continue\r\n'
else:
wfile = None
wfile_line = None
chunked = env.get('HTTP_TRANSFER_ENCODING', '').lower() == 'chunked'
env['wsgi.input'] = env['eventlet.input'] = Input(
self.rfile, length, self.connection, wfile=wfile, wfile_line=wfile_line,
chunked_input=chunked)
env['eventlet.posthooks'] = []
return env
def finish(self):
try:
BaseHTTPServer.BaseHTTPRequestHandler.finish(self)
except socket.error as e:
# Broken pipe, connection reset by peer
if support.get_errno(e) not in BROKEN_SOCK:
raise
greenio.shutdown_safe(self.connection)
self.connection.close()
def handle_expect_100(self):
return True
class Server(BaseHTTPServer.HTTPServer):
def __init__(self,
socket,
address,
app,
log=None,
environ=None,
max_http_version=None,
protocol=HttpProtocol,
minimum_chunk_size=None,
log_x_forwarded_for=True,
keepalive=True,
log_output=True,
log_format=DEFAULT_LOG_FORMAT,
url_length_limit=MAX_REQUEST_LINE,
debug=True,
socket_timeout=None,
capitalize_response_headers=True):
self.outstanding_requests = 0
self.socket = socket
self.address = address
if log:
self.log = get_logger(log, debug)
else:
self.log = get_logger(sys.stderr, debug)
self.app = app
self.keepalive = keepalive
self.environ = environ
self.max_http_version = max_http_version
self.protocol = protocol
self.pid = os.getpid()
self.minimum_chunk_size = minimum_chunk_size
self.log_x_forwarded_for = log_x_forwarded_for
self.log_output = log_output
self.log_format = log_format
self.url_length_limit = url_length_limit
self.debug = debug
self.socket_timeout = socket_timeout
self.capitalize_response_headers = capitalize_response_headers
if not self.capitalize_response_headers:
warnings.warn("""capitalize_response_headers is disabled.
Please, make sure you know what you are doing.
HTTP headers names are case-insensitive per RFC standard.
Most likely, you need to fix HTTP parsing in your client software.""",
DeprecationWarning, stacklevel=3)
def get_environ(self):
d = {
'wsgi.errors': sys.stderr,
'wsgi.version': (1, 0),
'wsgi.multithread': True,
'wsgi.multiprocess': False,
'wsgi.run_once': False,
'wsgi.url_scheme': 'http',
}
# detect secure socket
if hasattr(self.socket, 'do_handshake'):
d['wsgi.url_scheme'] = 'https'
d['HTTPS'] = 'on'
if self.environ is not None:
d.update(self.environ)
return d
def process_request(self, sock_params):
# The actual request handling takes place in __init__, so we need to
# set minimum_chunk_size before __init__ executes and we don't want to modify
# class variable
sock, address = sock_params
proto = new(self.protocol)
if self.minimum_chunk_size is not None:
proto.minimum_chunk_size = self.minimum_chunk_size
proto.capitalize_response_headers = self.capitalize_response_headers
try:
proto.__init__(sock, address, self)
except socket.timeout:
# Expected exceptions are not exceptional
sock.close()
# similar to logging "accepted" in server()
self.log.debug('(%s) timed out %r' % (self.pid, address))
def log_message(self, message):
warnings.warn('server.log_message is deprecated. Please use server.log.info instead')
self.log.info(message)
try:
new = types.InstanceType
except AttributeError:
new = lambda cls: cls.__new__(cls)
try:
import ssl
ACCEPT_EXCEPTIONS = (socket.error, ssl.SSLError)
ACCEPT_ERRNO = set((errno.EPIPE, errno.EBADF, errno.ECONNRESET,
ssl.SSL_ERROR_EOF, ssl.SSL_ERROR_SSL))
except ImportError:
ACCEPT_EXCEPTIONS = (socket.error,)
ACCEPT_ERRNO = set((errno.EPIPE, errno.EBADF, errno.ECONNRESET))
def socket_repr(sock):
scheme = 'http'
if hasattr(sock, 'do_handshake'):
scheme = 'https'
name = sock.getsockname()
if sock.family == socket.AF_INET:
hier_part = '//{0}:{1}'.format(*name)
elif sock.family == socket.AF_INET6:
hier_part = '//[{0}]:{1}'.format(*name[:2])
elif sock.family == socket.AF_UNIX:
hier_part = name
else:
hier_part = repr(name)
return scheme + ':' + hier_part
def server(sock, site,
log=None,
environ=None,
max_size=None,
max_http_version=DEFAULT_MAX_HTTP_VERSION,
protocol=HttpProtocol,
server_event=None,
minimum_chunk_size=None,
log_x_forwarded_for=True,
custom_pool=None,
keepalive=True,
log_output=True,
log_format=DEFAULT_LOG_FORMAT,
url_length_limit=MAX_REQUEST_LINE,
debug=True,
socket_timeout=None,
capitalize_response_headers=True):
"""Start up a WSGI server handling requests from the supplied server
socket. This function loops forever. The *sock* object will be
closed after server exits, but the underlying file descriptor will
remain open, so if you have a dup() of *sock*, it will remain usable.
.. warning::
At the moment :func:`server` will always wait for active connections to finish before
exiting, even if there's an exception raised inside it
(*all* exceptions are handled the same way, including :class:`greenlet.GreenletExit`
and those inheriting from `BaseException`).
While this may not be an issue normally, when it comes to long running HTTP connections
(like :mod:`eventlet.websocket`) it will become problematic and calling
:meth:`~eventlet.greenthread.GreenThread.wait` on a thread that runs the server may hang,
even after using :meth:`~eventlet.greenthread.GreenThread.kill`, as long
as there are active connections.
:param sock: Server socket, must be already bound to a port and listening.
:param site: WSGI application function.
:param log: logging.Logger instance or file-like object that logs should be written to.
If a Logger instance is supplied, messages are sent to the INFO log level.
If not specified, sys.stderr is used.
:param environ: Additional parameters that go into the environ dictionary of every request.
:param max_size: Maximum number of client connections opened at any time by this server.
Default is 1024.
:param max_http_version: Set to "HTTP/1.0" to make the server pretend it only supports HTTP 1.0.
This can help with applications or clients that don't behave properly using HTTP 1.1.
:param protocol: Protocol class. Deprecated.
:param server_event: Used to collect the Server object. Deprecated.
:param minimum_chunk_size: Minimum size in bytes for http chunks. This can be used to improve
performance of applications which yield many small strings, though
using it technically violates the WSGI spec. This can be overridden
on a per request basis by setting environ['eventlet.minimum_write_chunk_size'].
:param log_x_forwarded_for: If True (the default), logs the contents of the x-forwarded-for
header in addition to the actual client ip address in the 'client_ip' field of the
log line.
:param custom_pool: A custom GreenPool instance which is used to spawn client green threads.
If this is supplied, max_size is ignored.
:param keepalive: If set to False, disables keepalives on the server; all connections will be
closed after serving one request.
:param log_output: A Boolean indicating if the server will log data or not.
:param log_format: A python format string that is used as the template to generate log lines.
The following values can be formatted into it: client_ip, date_time, request_line,
status_code, body_length, wall_seconds. The default is a good example of how to
use it.
:param url_length_limit: A maximum allowed length of the request url. If exceeded, 414 error
is returned.
:param debug: True if the server should send exception tracebacks to the clients on 500 errors.
If False, the server will respond with empty bodies.
:param socket_timeout: Timeout for client connections' socket operations. Default None means
wait forever.
:param capitalize_response_headers: Normalize response headers' names to Foo-Bar.
Default is True.
"""
serv = Server(sock, sock.getsockname(),
site, log,
environ=environ,
max_http_version=max_http_version,
protocol=protocol,
minimum_chunk_size=minimum_chunk_size,
log_x_forwarded_for=log_x_forwarded_for,
keepalive=keepalive,
log_output=log_output,
log_format=log_format,
url_length_limit=url_length_limit,
debug=debug,
socket_timeout=socket_timeout,
capitalize_response_headers=capitalize_response_headers,
)
if server_event is not None:
server_event.send(serv)
if max_size is None:
max_size = DEFAULT_MAX_SIMULTANEOUS_REQUESTS
if custom_pool is not None:
pool = custom_pool
else:
pool = greenpool.GreenPool(max_size)
try:
serv.log.info("(%s) wsgi starting up on %s" % (
serv.pid, socket_repr(sock)))
while is_accepting:
try:
client_socket = sock.accept()
client_socket[0].settimeout(serv.socket_timeout)
serv.log.debug("(%s) accepted %r" % (
serv.pid, client_socket[1]))
try:
pool.spawn_n(serv.process_request, client_socket)
except AttributeError:
warnings.warn("wsgi's pool should be an instance of "
"eventlet.greenpool.GreenPool, is %s. Please convert your"
" call site to use GreenPool instead" % type(pool),
DeprecationWarning, stacklevel=2)
pool.execute_async(serv.process_request, client_socket)
except ACCEPT_EXCEPTIONS as e:
if support.get_errno(e) not in ACCEPT_ERRNO:
raise
except (KeyboardInterrupt, SystemExit):
serv.log.info("wsgi exiting")
break
finally:
pool.waitall()
serv.log.info("(%s) wsgi exited, is_accepting=%s" % (
serv.pid, is_accepting))
try:
# NOTE: It's not clear whether we want this to leave the
# socket open or close it. Use cases like Spawning want
# the underlying fd to remain open, but if we're going
# that far we might as well not bother closing sock at
# all.
sock.close()
except socket.error as e:
if support.get_errno(e) not in BROKEN_SOCK:
traceback.print_exc()
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