"""Native adapter for serving CherryPy via mod_python Basic usage: ########################################## # Application in a module called myapp.py ########################################## import cherrypy class Root: @cherrypy.expose def index(self): return 'Hi there, Ho there, Hey there' # We will use this method from the mod_python configuration # as the entry point to our application def setup_server(): cherrypy.tree.mount(Root()) cherrypy.config.update({'environment': 'production', 'log.screen': False, 'show_tracebacks': False}) ########################################## # mod_python settings for apache2 # This should reside in your httpd.conf # or a file that will be loaded at # apache startup ########################################## # Start DocumentRoot "/" Listen 8080 LoadModule python_module /usr/lib/apache2/modules/mod_python.so PythonPath "sys.path+['/path/to/my/application']" SetHandler python-program PythonHandler cherrypy._cpmodpy::handler PythonOption cherrypy.setup myapp::setup_server PythonDebug On # End The actual path to your mod_python.so is dependent on your environment. In this case we suppose a global mod_python installation on a Linux distribution such as Ubuntu. We do set the PythonPath configuration setting so that your application can be found by from the user running the apache2 instance. Of course if your application resides in the global site-package this won't be needed. Then restart apache2 and access http://127.0.0.1:8080 """ import io import logging import os import re import sys import cherrypy from cherrypy._cpcompat import copyitems, ntob from cherrypy._cperror import format_exc, bare_error from cherrypy.lib import httputil # ------------------------------ Request-handling def setup(req): from mod_python import apache # Run any setup functions defined by a "PythonOption cherrypy.setup" # directive. options = req.get_options() if 'cherrypy.setup' in options: for function in options['cherrypy.setup'].split(): atoms = function.split('::', 1) if len(atoms) == 1: mod = __import__(atoms[0], globals(), locals()) else: modname, fname = atoms mod = __import__(modname, globals(), locals(), [fname]) func = getattr(mod, fname) func() cherrypy.config.update({'log.screen': False, 'tools.ignore_headers.on': True, 'tools.ignore_headers.headers': ['Range'], }) engine = cherrypy.engine if hasattr(engine, 'signal_handler'): engine.signal_handler.unsubscribe() if hasattr(engine, 'console_control_handler'): engine.console_control_handler.unsubscribe() engine.autoreload.unsubscribe() cherrypy.server.unsubscribe() def _log(msg, level): newlevel = apache.APLOG_ERR if logging.DEBUG >= level: newlevel = apache.APLOG_DEBUG elif logging.INFO >= level: newlevel = apache.APLOG_INFO elif logging.WARNING >= level: newlevel = apache.APLOG_WARNING # On Windows, req.server is required or the msg will vanish. See # http://www.modpython.org/pipermail/mod_python/2003-October/014291.html # Also, "When server is not specified...LogLevel does not apply..." apache.log_error(msg, newlevel, req.server) engine.subscribe('log', _log) engine.start() def cherrypy_cleanup(data): engine.exit() try: # apache.register_cleanup wasn't available until 3.1.4. apache.register_cleanup(cherrypy_cleanup) except AttributeError: req.server.register_cleanup(req, cherrypy_cleanup) class _ReadOnlyRequest: expose = ('read', 'readline', 'readlines') def __init__(self, req): for method in self.expose: self.__dict__[method] = getattr(req, method) recursive = False _isSetUp = False def handler(req): from mod_python import apache try: global _isSetUp if not _isSetUp: setup(req) _isSetUp = True # Obtain a Request object from CherryPy local = req.connection.local_addr local = httputil.Host( local[0], local[1], req.connection.local_host or '') remote = req.connection.remote_addr remote = httputil.Host( remote[0], remote[1], req.connection.remote_host or '') scheme = req.parsed_uri[0] or 'http' req.get_basic_auth_pw() try: # apache.mpm_query only became available in mod_python 3.1 q = apache.mpm_query threaded = q(apache.AP_MPMQ_IS_THREADED) forked = q(apache.AP_MPMQ_IS_FORKED) except AttributeError: bad_value = ("You must provide a PythonOption '%s', " "either 'on' or 'off', when running a version " 'of mod_python < 3.1') threaded = options.get('multithread', '').lower() if threaded == 'on': threaded = True elif threaded == 'off': threaded = False else: raise ValueError(bad_value % 'multithread') forked = options.get('multiprocess', '').lower() if forked == 'on': forked = True elif forked == 'off': forked = False else: raise ValueError(bad_value % 'multiprocess') sn = cherrypy.tree.script_name(req.uri or '/') if sn is None: send_response(req, '404 Not Found', [], '') else: app = cherrypy.tree.apps[sn] method = req.method path = req.uri qs = req.args or '' reqproto = req.protocol headers = copyitems(req.headers_in) rfile = _ReadOnlyRequest(req) prev = None try: redirections = [] while True: request, response = app.get_serving(local, remote, scheme, 'HTTP/1.1') request.login = req.user request.multithread = bool(threaded) request.multiprocess = bool(forked) request.app = app request.prev = prev # Run the CherryPy Request object and obtain the response try: request.run(method, path, qs, reqproto, headers, rfile) break except cherrypy.InternalRedirect: ir = sys.exc_info()[1] app.release_serving() prev = request if not recursive: if ir.path in redirections: raise RuntimeError( 'InternalRedirector visited the same URL ' 'twice: %r' % ir.path) else: # Add the *previous* path_info + qs to # redirections. if qs: qs = '?' + qs redirections.append(sn + path + qs) # Munge environment and try again. method = 'GET' path = ir.path qs = ir.query_string rfile = io.BytesIO() send_response( req, response.output_status, response.header_list, response.body, response.stream) finally: app.release_serving() except: tb = format_exc() cherrypy.log(tb, 'MOD_PYTHON', severity=logging.ERROR) s, h, b = bare_error() send_response(req, s, h, b) return apache.OK def send_response(req, status, headers, body, stream=False): # Set response status req.status = int(status[:3]) # Set response headers req.content_type = 'text/plain' for header, value in headers: if header.lower() == 'content-type': req.content_type = value continue req.headers_out.add(header, value) if stream: # Flush now so the status and headers are sent immediately. req.flush() # Set response body if isinstance(body, text_or_bytes): req.write(body) else: for seg in body: req.write(seg) # --------------- Startup tools for CherryPy + mod_python --------------- # try: import subprocess def popen(fullcmd): p = subprocess.Popen(fullcmd, shell=True, stdout=subprocess.PIPE, stderr=subprocess.STDOUT, close_fds=True) return p.stdout except ImportError: def popen(fullcmd): pipein, pipeout = os.popen4(fullcmd) return pipeout def read_process(cmd, args=''): fullcmd = '%s %s' % (cmd, args) pipeout = popen(fullcmd) try: firstline = pipeout.readline() cmd_not_found = re.search( ntob('(not recognized|No such file|not found)'), firstline, re.IGNORECASE ) if cmd_not_found: raise IOError('%s must be on your system path.' % cmd) output = firstline + pipeout.read() finally: pipeout.close() return output class ModPythonServer(object): template = """ # Apache2 server configuration file for running CherryPy with mod_python. DocumentRoot "/" Listen %(port)s LoadModule python_module modules/mod_python.so SetHandler python-program PythonHandler %(handler)s PythonDebug On %(opts)s """ def __init__(self, loc='/', port=80, opts=None, apache_path='apache', handler='cherrypy._cpmodpy::handler'): self.loc = loc self.port = port self.opts = opts self.apache_path = apache_path self.handler = handler def start(self): opts = ''.join([' PythonOption %s %s\n' % (k, v) for k, v in self.opts]) conf_data = self.template % {'port': self.port, 'loc': self.loc, 'opts': opts, 'handler': self.handler, } mpconf = os.path.join(os.path.dirname(__file__), 'cpmodpy.conf') f = open(mpconf, 'wb') try: f.write(conf_data) finally: f.close() response = read_process(self.apache_path, '-k start -f %s' % mpconf) self.ready = True return response def stop(self): os.popen('apache -k stop') self.ready = False