# Copyright (c) 2005-2009, eventlet contributors
# Copyright (c) 2009-2011, gevent contributors
import errno
import sys
import time
import traceback
import mimetools
from datetime import datetime
from urllib import unquote
from gevent import socket
import gevent
from gevent.server import StreamServer
from gevent.hub import GreenletExit
__all__ = ['WSGIHandler', 'WSGIServer']
MAX_REQUEST_LINE = 8192
# 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"]
_INTERNAL_ERROR_STATUS = '500 Internal Server Error'
_INTERNAL_ERROR_BODY = 'Internal Server Error'
_INTERNAL_ERROR_HEADERS = [('Content-Type', 'text/plain'),
('Connection', 'close'),
('Content-Length', str(len(_INTERNAL_ERROR_BODY)))]
_REQUEST_TOO_LONG_RESPONSE = "HTTP/1.1 414 Request URI Too Long\r\nConnection: close\r\nContent-length: 0\r\n\r\n"
_BAD_REQUEST_RESPONSE = "HTTP/1.1 400 Bad Request\r\nConnection: close\r\nContent-length: 0\r\n\r\n"
_CONTINUE_RESPONSE = "HTTP/1.1 100 Continue\r\n\r\n"
def format_date_time(timestamp):
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)
class Input(object):
def __init__(self, rfile, content_length, socket=None, chunked_input=False):
self.rfile = rfile
self.content_length = content_length
self.socket = socket
self.position = 0
self.chunked_input = chunked_input
self.chunk_length = -1
def _discard(self):
if self.socket is None and (self.position < (self.content_length or 0) or self.chunked_input):
# ## Read and discard body
while 1:
d = self.read(16384)
if not d:
break
def _send_100_continue(self):
if self.socket is not None:
self.socket.sendall(_CONTINUE_RESPONSE)
self.socket = None
def _do_read(self, length=None, use_readline=False):
if use_readline:
reader = self.rfile.readline
else:
reader = self.rfile.read
content_length = self.content_length
if content_length is None:
# Either Content-Length or "Transfer-Encoding: chunked" must be present in a request with a body
# if it was chunked, then this function would have not been called
return ''
self._send_100_continue()
left = content_length - self.position
if length is None:
length = left
elif length > left:
length = left
if not length:
return ''
read = reader(length)
self.position += len(read)
if len(read) < length:
if (use_readline and not read.endswith("\n")) or not use_readline:
raise IOError("unexpected end of file while reading request at position %s" % (self.position,))
return read
def _chunked_read(self, length=None, use_readline=False):
rfile = self.rfile
self._send_100_continue()
if length == 0:
return ""
if 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:
line = rfile.readline()
if not line.endswith("\n"):
self.chunk_length = 0
raise IOError("unexpected end of file while reading chunked data header")
self.chunk_length = int(line.split(";", 1)[0], 16)
self.position = 0
if self.chunk_length == 0:
rfile.readline()
return ''.join(response)
def read(self, length=None):
if self.chunked_input:
return self._chunked_read(length)
return self._do_read(length)
def readline(self, size=None):
if self.chunked_input:
return self._chunked_read(size, True)
else:
return self._do_read(size, use_readline=True)
def readlines(self, hint=None):
return list(self)
def __iter__(self):
return self
def next(self):
line = self.readline()
if not line:
raise StopIteration
return line
class WSGIHandler(object):
protocol_version = 'HTTP/1.1'
MessageClass = mimetools.Message
def __init__(self, socket, address, server, rfile=None):
self.socket = socket
self.client_address = address
self.server = server
if rfile is None:
self.rfile = socket.makefile('rb', -1)
else:
self.rfile = rfile
def handle(self):
try:
while self.socket is not None:
self.time_start = time.time()
self.time_finish = 0
result = self.handle_one_request()
if result is None:
break
if result is True:
continue
self.status, response_body = result
self.socket.sendall(response_body)
if self.time_finish == 0:
self.time_finish = time.time()
self.log_request()
break
finally:
if self.socket is not None:
try:
# read out request data to prevent error: [Errno 104] Connection reset by peer
try:
self.socket._sock.recv(16384)
finally:
self.socket._sock.close() # do not rely on garbage collection
self.socket.close()
except socket.error:
pass
self.__dict__.pop('socket', None)
self.__dict__.pop('rfile', None)
def _check_http_version(self):
version = self.request_version
if not version.startswith("HTTP/"):
return False
version = tuple(int(x) for x in version[5:].split(".")) # "HTTP/"
if version[1] < 0 or version < (0, 9) or version >= (2, 0):
return False
return True
def read_request(self, raw_requestline):
self.requestline = raw_requestline.rstrip()
words = self.requestline.split()
if len(words) == 3:
self.command, self.path, self.request_version = words
if not self._check_http_version():
self.log_error('Invalid http version: %r', raw_requestline)
return
elif len(words) == 2:
self.command, self.path = words
if self.command != "GET":
self.log_error('Expected GET method: %r', raw_requestline)
return
self.request_version = "HTTP/0.9"
# QQQ I'm pretty sure we can drop support for HTTP/0.9
else:
self.log_error('Invalid HTTP method: %r', raw_requestline)
return
self.headers = self.MessageClass(self.rfile, 0)
if self.headers.status:
self.log_error('Invalid headers status: %r', self.headers.status)
return
if self.headers.get("transfer-encoding", "").lower() == "chunked":
try:
del self.headers["content-length"]
except KeyError:
pass
content_length = self.headers.get("content-length")
if content_length is not None:
content_length = int(content_length)
if content_length < 0:
self.log_error('Invalid Content-Length: %r', content_length)
return
if content_length and self.command in ('HEAD', ):
self.log_error('Unexpected Content-Length')
return
self.content_length = content_length
if self.request_version == "HTTP/1.1":
conntype = self.headers.get("Connection", "").lower()
if conntype == "close":
self.close_connection = True
else:
self.close_connection = False
else:
self.close_connection = True
return True
def log_error(self, msg, *args):
try:
message = msg % args
except Exception:
traceback.print_exc()
message = '%r %r' % (msg, args)
try:
message = '%s: %s' % (self.socket, message)
except Exception:
pass
try:
sys.stderr.write(message + '\n')
except Exception:
traceback.print_exc()
def read_requestline(self):
return self.rfile.readline(MAX_REQUEST_LINE)
def handle_one_request(self):
if self.rfile.closed:
return
try:
self.requestline = self.read_requestline()
except socket.error:
# "Connection reset by peer" or other socket errors aren't interesting here
return
if not self.requestline:
return
self.response_length = 0
if len(self.requestline) >= MAX_REQUEST_LINE:
return ('414', _REQUEST_TOO_LONG_RESPONSE)
try:
# for compatibility with older versions of pywsgi, we pass self.requestline as an argument there
if not self.read_request(self.requestline):
return ('400', _BAD_REQUEST_RESPONSE)
except Exception:
ex = sys.exc_info()[1]
if not isinstance(ex, ValueError):
traceback.print_exc()
self.log_error('Invalid request: %s', str(ex) or ex.__class__.__name__)
return ('400', _BAD_REQUEST_RESPONSE)
self.environ = self.get_environ()
self.application = self.server.application
try:
self.handle_one_response()
except socket.error:
ex = sys.exc_info()[1]
# Broken pipe, connection reset by peer
if ex.args[0] in (errno.EPIPE, errno.ECONNRESET):
sys.exc_clear()
return
else:
raise
if self.close_connection:
return
if self.rfile.closed:
return
return True # read more requests
def finalize_headers(self):
if self.provided_date is None:
self.response_headers.append(('Date', format_date_time(time.time())))
if self.code not in (304, 204):
# the reply will include message-body; make sure we have either Content-Length or chunked
if self.provided_content_length is None:
if hasattr(self.result, '__len__'):
self.response_headers.append(('Content-Length', str(sum(len(chunk) for chunk in self.result))))
else:
if self.request_version != 'HTTP/1.0':
self.response_use_chunked = True
self.response_headers.append(('Transfer-Encoding', 'chunked'))
def _sendall(self, data):
try:
self.socket.sendall(data)
except socket.error, ex:
self.status = 'socket error: %s' % ex
if self.code > 0:
self.code = -self.code
raise
self.response_length += len(data)
def _write(self, data):
if not data:
return
if self.response_use_chunked:
## Write the chunked encoding
data = "%x\r\n%s\r\n" % (len(data), data)
self._sendall(data)
def write(self, data):
if self.code in (304, 204) and data:
raise AssertionError('The %s response must have no body' % self.code)
if self.headers_sent:
self._write(data)
else:
if not self.status:
raise AssertionError("The application did not call start_response()")
self._write_with_headers(data)
if sys.version_info[:2] >= (2, 6):
def _write_with_headers(self, data):
towrite = bytearray()
self.headers_sent = True
self.finalize_headers()
towrite.extend('HTTP/1.1 %s\r\n' % self.status)
for header in self.response_headers:
towrite.extend('%s: %s\r\n' % header)
towrite.extend('\r\n')
if data:
if self.response_use_chunked:
## Write the chunked encoding
towrite.extend("%x\r\n%s\r\n" % (len(data), data))
else:
towrite.extend(data)
self._sendall(towrite)
else:
# Python 2.5 does not have bytearray
def _write_with_headers(self, data):
towrite = []
self.headers_sent = True
self.finalize_headers()
towrite.append('HTTP/1.1 %s\r\n' % self.status)
for header in self.response_headers:
towrite.append('%s: %s\r\n' % header)
towrite.append('\r\n')
if data:
if self.response_use_chunked:
## Write the chunked encoding
towrite.append("%x\r\n%s\r\n" % (len(data), data))
else:
towrite.append(data)
self._sendall(''.join(towrite))
def start_response(self, status, headers, exc_info=None):
if exc_info:
try:
if self.headers_sent:
# Re-raise original exception if headers sent
raise exc_info[0], exc_info[1], exc_info[2]
finally:
# Avoid dangling circular ref
exc_info = None
self.code = int(status.split(' ', 1)[0])
self.status = status
self.response_headers = headers
provided_connection = None
self.provided_date = None
self.provided_content_length = None
for header, value in headers:
header = header.lower()
if header == 'connection':
provided_connection = value
elif header == 'date':
self.provided_date = value
elif header == 'content-length':
self.provided_content_length = value
if self.request_version == 'HTTP/1.0' and provided_connection is None:
headers.append(('Connection', 'close'))
self.close_connection = True
elif provided_connection == 'close':
self.close_connection = True
if self.code in (304, 204):
if self.provided_content_length is not None and self.provided_content_length != '0':
msg = 'Invalid Content-Length for %s response: %r (must be absent or zero)' % (self.code, self.provided_content_length)
raise AssertionError(msg)
return self.write
def log_request(self):
log = self.server.log
if log:
log.write(self.format_request() + '\n')
def format_request(self):
now = datetime.now().replace(microsecond=0)
length = self.response_length or '-'
if self.time_finish:
delta = '%.6f' % (self.time_finish - self.time_start)
else:
delta = '-'
client_address = self.client_address[0] if isinstance(self.client_address, tuple) else self.client_address
return '%s - - [%s] "%s" %s %s %s' % (
client_address or '-',
now,
getattr(self, 'requestline', ''),
(getattr(self, 'status', None) or '000').split()[0],
length,
delta)
def process_result(self):
for data in self.result:
if data:
self.write(data)
if self.status and not self.headers_sent:
self.write('')
if self.response_use_chunked:
self.socket.sendall('0\r\n\r\n')
self.response_length += 5
def run_application(self):
self.result = self.application(self.environ, self.start_response)
self.process_result()
def handle_one_response(self):
self.time_start = time.time()
self.status = None
self.headers_sent = False
self.result = None
self.response_use_chunked = False
self.response_length = 0
try:
try:
self.run_application()
finally:
close = getattr(self.result, 'close', None)
if close is not None:
close()
self.wsgi_input._discard()
except:
self.handle_error(*sys.exc_info())
finally:
self.time_finish = time.time()
self.log_request()
def handle_error(self, type, value, tb):
if not issubclass(type, GreenletExit):
self.server.loop.handle_error(self.environ, type, value, tb)
del tb
if self.response_length:
self.close_connection = True
else:
self.start_response(_INTERNAL_ERROR_STATUS, _INTERNAL_ERROR_HEADERS[:])
self.write(_INTERNAL_ERROR_BODY)
def _headers(self):
key = None
value = None
for header in self.headers.headers:
if key is not None and header[:1] in " \t":
value += header
continue
if key not in (None, 'CONTENT_TYPE', 'CONTENT_LENGTH'):
yield 'HTTP_' + key, value.strip()
key, value = header.split(':', 1)
key = key.replace('-', '_').upper()
if key not in (None, 'CONTENT_TYPE', 'CONTENT_LENGTH'):
yield 'HTTP_' + key, value.strip()
def get_environ(self):
env = self.server.get_environ()
env['REQUEST_METHOD'] = self.command
env['SCRIPT_NAME'] = ''
if '?' in self.path:
path, query = self.path.split('?', 1)
else:
path, query = self.path, ''
env['PATH_INFO'] = unquote(path)
env['QUERY_STRING'] = query
if self.headers.typeheader is not None:
env['CONTENT_TYPE'] = self.headers.typeheader
length = self.headers.getheader('content-length')
if length:
env['CONTENT_LENGTH'] = length
env['SERVER_PROTOCOL'] = self.request_version
client_address = self.client_address
if isinstance(client_address, tuple):
env['REMOTE_ADDR'] = str(client_address[0])
env['REMOTE_PORT'] = str(client_address[1])
for key, value in self._headers():
if key in env:
if 'COOKIE' in key:
env[key] += '; ' + value
else:
env[key] += ',' + value
else:
env[key] = value
if env.get('HTTP_EXPECT') == '100-continue':
socket = self.socket
else:
socket = None
chunked = env.get('HTTP_TRANSFER_ENCODING', '').lower() == 'chunked'
self.wsgi_input = Input(self.rfile, self.content_length, socket=socket, chunked_input=chunked)
env['wsgi.input'] = self.wsgi_input
return env
class WSGIServer(StreamServer):
"""A WSGI server based on :class:`StreamServer` that supports HTTPS."""
handler_class = WSGIHandler
base_env = {'GATEWAY_INTERFACE': 'CGI/1.1',
'SERVER_SOFTWARE': 'gevent/%d.%d Python/%d.%d' % (gevent.version_info[:2] + sys.version_info[:2]),
'SCRIPT_NAME': '',
'wsgi.version': (1, 0),
'wsgi.multithread': False,
'wsgi.multiprocess': False,
'wsgi.run_once': False}
def __init__(self, listener, application=None, backlog=None, spawn='default', log='default', handler_class=None,
environ=None, **ssl_args):
StreamServer.__init__(self, listener, backlog=backlog, spawn=spawn, **ssl_args)
if application is not None:
self.application = application
if handler_class is not None:
self.handler_class = handler_class
if log == 'default':
self.log = sys.stderr
else:
self.log = log
self.set_environ(environ)
self.set_max_accept()
def set_environ(self, environ=None):
if environ is not None:
self.environ = environ
environ_update = getattr(self, 'environ', None)
self.environ = self.base_env.copy()
if self.ssl_enabled:
self.environ['wsgi.url_scheme'] = 'https'
else:
self.environ['wsgi.url_scheme'] = 'http'
if environ_update is not None:
self.environ.update(environ_update)
if self.environ.get('wsgi.errors') is None:
self.environ['wsgi.errors'] = sys.stderr
def set_max_accept(self):
if self.environ.get('wsgi.multiprocess'):
self.max_accept = 1
def get_environ(self):
return self.environ.copy()
def init_socket(self):
StreamServer.init_socket(self)
self.update_environ()
def update_environ(self):
address = self.address
if isinstance(address, tuple):
if 'SERVER_NAME' not in self.environ:
try:
name = socket.getfqdn(address[0])
except socket.error:
name = str(address[0])
self.environ['SERVER_NAME'] = name
self.environ.setdefault('SERVER_PORT', str(address[1]))
else:
self.environ.setdefault('SERVER_NAME', '')
self.environ.setdefault('SERVER_PORT', '')
def handle(self, socket, address):
handler = self.handler_class(socket, address, self)
handler.handle()