# Copyright (c) 2005, 2006 Allan Saddi # All rights reserved. # # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions # are met: # 1. Redistributions of source code must retain the above copyright # notice, this list of conditions and the following disclaimer. # 2. Redistributions in binary form must reproduce the above copyright # notice, this list of conditions and the following disclaimer in the # documentation and/or other materials provided with the distribution. # # THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND # ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE # IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE # ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE # FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL # DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS # OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) # HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT # LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY # OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF # SUCH DAMAGE. # # $Id$ __author__ = 'Allan Saddi ' __version__ = '$Revision$' import sys import logging import socket import select import errno import cStringIO as StringIO import signal import datetime import os import warnings import traceback # Threads are required. If you want a non-threaded (forking) version, look at # SWAP . import thread import threading __all__ = ['BaseSCGIServer'] from flup.server import NoDefault # The main classes use this name for logging. LoggerName = 'scgi-wsgi' # Set up module-level logger. console = logging.StreamHandler() console.setLevel(logging.DEBUG) console.setFormatter(logging.Formatter('%(asctime)s : %(message)s', '%Y-%m-%d %H:%M:%S')) logging.getLogger(LoggerName).addHandler(console) del console class ProtocolError(Exception): """ Exception raised when the server does something unexpected or sends garbled data. Usually leads to a Connection closing. """ pass def recvall(sock, length): """ Attempts to receive length bytes from a socket, blocking if necessary. (Socket may be blocking or non-blocking.) """ dataList = [] recvLen = 0 while length: try: data = sock.recv(length) except socket.error, e: if e[0] == errno.EAGAIN: select.select([sock], [], []) continue else: raise if not data: # EOF break dataList.append(data) dataLen = len(data) recvLen += dataLen length -= dataLen return ''.join(dataList), recvLen def readNetstring(sock): """ Attempt to read a netstring from a socket. """ # First attempt to read the length. size = '' while True: try: c = sock.recv(1) except socket.error, e: if e[0] == errno.EAGAIN: select.select([sock], [], []) continue else: raise if c == ':': break if not c: raise EOFError size += c # Try to decode the length. try: size = int(size) if size < 0: raise ValueError except ValueError: raise ProtocolError, 'invalid netstring length' # Now read the string. s, length = recvall(sock, size) if length < size: raise EOFError # Lastly, the trailer. trailer, length = recvall(sock, 1) if length < 1: raise EOFError if trailer != ',': raise ProtocolError, 'invalid netstring trailer' return s class StdoutWrapper(object): """ Wrapper for sys.stdout so we know if data has actually been written. """ def __init__(self, stdout): self._file = stdout self.dataWritten = False def write(self, data): if data: self.dataWritten = True self._file.write(data) def writelines(self, lines): for line in lines: self.write(line) def __getattr__(self, name): return getattr(self._file, name) class Request(object): """ Encapsulates data related to a single request. Public attributes: environ - Environment variables from web server. stdin - File-like object representing the request body. stdout - File-like object for writing the response. """ def __init__(self, conn, environ, input, output): self._conn = conn self.environ = environ self.stdin = input self.stdout = StdoutWrapper(output) self.logger = logging.getLogger(LoggerName) def run(self): self.logger.info('%s %s%s', self.environ['REQUEST_METHOD'], self.environ.get('SCRIPT_NAME', ''), self.environ.get('PATH_INFO', '')) start = datetime.datetime.now() try: self._conn.server.handler(self) except: self.logger.exception('Exception caught from handler') if not self.stdout.dataWritten: self._conn.server.error(self) end = datetime.datetime.now() handlerTime = end - start self.logger.debug('%s %s%s done (%.3f secs)', self.environ['REQUEST_METHOD'], self.environ.get('SCRIPT_NAME', ''), self.environ.get('PATH_INFO', ''), handlerTime.seconds + handlerTime.microseconds / 1000000.0) class TimeoutException(Exception): pass class Connection(object): """ Represents a single client (web server) connection. A single request is handled, after which the socket is closed. """ def __init__(self, sock, addr, server, timeout): self._sock = sock self._addr = addr self.server = server self._timeout = timeout self.logger = logging.getLogger(LoggerName) def timeout_handler(self, signum, frame): self.logger.error('Timeout Exceeded') self.logger.error("\n".join(traceback.format_stack(frame))) raise TimeoutException def run(self): if len(self._addr) == 2: self.logger.debug('Connection starting up (%s:%d)', self._addr[0], self._addr[1]) try: self.processInput() except (EOFError, KeyboardInterrupt): pass except ProtocolError, e: self.logger.error("Protocol error '%s'", str(e)) except: self.logger.exception('Exception caught in Connection') if len(self._addr) == 2: self.logger.debug('Connection shutting down (%s:%d)', self._addr[0], self._addr[1]) # All done! self._sock.close() def processInput(self): # Read headers headers = readNetstring(self._sock) headers = headers.split('\x00')[:-1] if len(headers) % 2 != 0: raise ProtocolError, 'invalid headers' environ = {} for i in range(len(headers) / 2): environ[headers[2*i]] = headers[2*i+1] clen = environ.get('CONTENT_LENGTH') if clen is None: raise ProtocolError, 'missing CONTENT_LENGTH' try: clen = int(clen) if clen < 0: raise ValueError except ValueError: raise ProtocolError, 'invalid CONTENT_LENGTH' self._sock.setblocking(1) if clen: input = self._sock.makefile('r') else: # Empty input. input = StringIO.StringIO() # stdout output = self._sock.makefile('w') # Allocate Request req = Request(self, environ, input, output) # If there is a timeout if self._timeout: old_alarm = signal.signal(signal.SIGALRM, self.timeout_handler) signal.alarm(self._timeout) # Run it. req.run() output.close() input.close() # Restore old handler if timeout was given if self._timeout: signal.alarm(0) signal.signal(signal.SIGALRM, old_alarm) class BaseSCGIServer(object): # What Request class to use. requestClass = Request def __init__(self, application, scriptName=NoDefault, environ=None, multithreaded=True, multiprocess=False, bindAddress=('localhost', 4000), umask=None, allowedServers=NoDefault, loggingLevel=logging.INFO, debug=False): """ scriptName is the initial portion of the URL path that "belongs" to your application. It is used to determine PATH_INFO (which doesn't seem to be passed in). An empty scriptName means your application is mounted at the root of your virtual host. environ, which must be a dictionary, can contain any additional environment variables you want to pass to your application. Set multithreaded to False if your application is not thread-safe. Set multiprocess to True to explicitly set wsgi.multiprocess to True. (Only makes sense with threaded servers.) bindAddress is the address to bind to, which must be a string or a tuple of length 2. If a tuple, the first element must be a string, which is the host name or IPv4 address of a local interface. The 2nd element of the tuple is the port number. If a string, it will be interpreted as a filename and a UNIX socket will be opened. If binding to a UNIX socket, umask may be set to specify what the umask is to be changed to before the socket is created in the filesystem. After the socket is created, the previous umask is restored. allowedServers must be None or a list of strings representing the IPv4 addresses of servers allowed to connect. None means accept connections from anywhere. By default, it is a list containing the single item '127.0.0.1'. loggingLevel sets the logging level of the module-level logger. """ if environ is None: environ = {} self.application = application self.scriptName = scriptName self.environ = environ self.multithreaded = multithreaded self.multiprocess = multiprocess self.debug = debug self._bindAddress = bindAddress self._umask = umask if allowedServers is NoDefault: allowedServers = ['127.0.0.1'] self._allowedServers = allowedServers # Used to force single-threadedness. self._appLock = thread.allocate_lock() self.logger = logging.getLogger(LoggerName) self.logger.setLevel(loggingLevel) def _setupSocket(self): """Creates and binds the socket for communication with the server.""" oldUmask = None if type(self._bindAddress) is str: # Unix socket sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM) try: os.unlink(self._bindAddress) except OSError: pass if self._umask is not None: oldUmask = os.umask(self._umask) else: # INET socket assert type(self._bindAddress) is tuple assert len(self._bindAddress) == 2 sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM) sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) sock.bind(self._bindAddress) sock.listen(socket.SOMAXCONN) if oldUmask is not None: os.umask(oldUmask) return sock def _cleanupSocket(self, sock): """Closes the main socket.""" sock.close() def _isClientAllowed(self, addr): ret = self._allowedServers is None or \ len(addr) != 2 or \ (len(addr) == 2 and addr[0] in self._allowedServers) if not ret: self.logger.warning('Server connection from %s disallowed', addr[0]) return ret def handler(self, request): """ WSGI handler. Sets up WSGI environment, calls the application, and sends the application's response. """ environ = request.environ environ.update(self.environ) environ['wsgi.version'] = (1,0) environ['wsgi.input'] = request.stdin environ['wsgi.errors'] = sys.stderr environ['wsgi.multithread'] = self.multithreaded environ['wsgi.multiprocess'] = self.multiprocess environ['wsgi.run_once'] = False if environ.get('HTTPS', 'off') in ('on', '1'): environ['wsgi.url_scheme'] = 'https' else: environ['wsgi.url_scheme'] = 'http' self._sanitizeEnv(environ) headers_set = [] headers_sent = [] result = None def write(data): assert type(data) is str, 'write() argument must be string' assert headers_set, 'write() before start_response()' if not headers_sent: status, responseHeaders = headers_sent[:] = headers_set found = False for header,value in responseHeaders: if header.lower() == 'content-length': found = True break if not found and result is not None: try: if len(result) == 1: responseHeaders.append(('Content-Length', str(len(data)))) except: pass s = 'Status: %s\r\n' % status for header in responseHeaders: s += '%s: %s\r\n' % header s += '\r\n' request.stdout.write(s) request.stdout.write(data) request.stdout.flush() def start_response(status, response_headers, exc_info=None): if exc_info: try: if headers_sent: # Re-raise if too late raise exc_info[0], exc_info[1], exc_info[2] finally: exc_info = None # avoid dangling circular ref else: assert not headers_set, 'Headers already set!' assert type(status) is str, 'Status must be a string' assert len(status) >= 4, 'Status must be at least 4 characters' assert int(status[:3]), 'Status must begin with 3-digit code' assert status[3] == ' ', 'Status must have a space after code' assert type(response_headers) is list, 'Headers must be a list' if __debug__: for name,val in response_headers: assert type(name) is str, 'Header name "%s" must be a string' % name assert type(val) is str, 'Value of header "%s" must be a string' % name headers_set[:] = [status, response_headers] return write if not self.multithreaded: self._appLock.acquire() try: try: result = self.application(environ, start_response) try: for data in result: if data: write(data) if not headers_sent: write('') # in case body was empty finally: if hasattr(result, 'close'): result.close() except socket.error, e: if e[0] != errno.EPIPE: raise # Don't let EPIPE propagate beyond server finally: if not self.multithreaded: self._appLock.release() def _sanitizeEnv(self, environ): """Fill-in/deduce missing values in environ.""" reqUri = None if environ.has_key('REQUEST_URI'): reqUri = environ['REQUEST_URI'].split('?', 1) # Ensure QUERY_STRING exists if not environ.has_key('QUERY_STRING') or not environ['QUERY_STRING']: if reqUri is not None and len(reqUri) > 1: environ['QUERY_STRING'] = reqUri[1] else: environ['QUERY_STRING'] = '' # Check WSGI_SCRIPT_NAME scriptName = environ.get('WSGI_SCRIPT_NAME') if scriptName is None: scriptName = self.scriptName else: warnings.warn('WSGI_SCRIPT_NAME environment variable for scgi ' 'servers is deprecated', DeprecationWarning) if scriptName.lower() == 'none': scriptName = None if scriptName is None: # Do nothing (most likely coming from cgi2scgi) return if scriptName is NoDefault: # Pull SCRIPT_NAME/PATH_INFO from environment, with empty defaults if not environ.has_key('SCRIPT_NAME'): environ['SCRIPT_NAME'] = '' if not environ.has_key('PATH_INFO') or not environ['PATH_INFO']: if reqUri is not None: scriptName = environ['SCRIPT_NAME'] if not reqUri[0].startswith(scriptName): self.logger.warning('SCRIPT_NAME does not match request URI') environ['PATH_INFO'] = reqUri[0][len(scriptName):] else: environ['PATH_INFO'] = '' else: # Configured scriptName warnings.warn('Configured SCRIPT_NAME is deprecated\n' 'Do not use WSGI_SCRIPT_NAME or the scriptName\n' 'keyword parameter -- they will be going away', DeprecationWarning) value = environ['SCRIPT_NAME'] value += environ.get('PATH_INFO', '') if not value.startswith(scriptName): self.logger.warning('scriptName does not match request URI') environ['PATH_INFO'] = value[len(scriptName):] environ['SCRIPT_NAME'] = scriptName def error(self, request): """ Override to provide custom error handling. Ideally, however, all errors should be caught at the application level. """ if self.debug: import cgitb request.stdout.write('Status: 500 Internal Server Error\r\n' + 'Content-Type: text/html\r\n\r\n' + cgitb.html(sys.exc_info())) else: errorpage = """ Unhandled Exception

Unhandled Exception

An unhandled exception was thrown by the application.

""" request.stdout.write('Status: 500 Internal Server Error\r\n' + 'Content-Type: text/html\r\n\r\n' + errorpage)