# ------------------------------------------------------------------------------ import os, re, httplib, sys, stat, urlparse, time, socket, xml.sax from urllib import quote from StringIO import StringIO from mimetypes import guess_type from base64 import encodestring from appy import Object from appy.shared.utils import copyData from appy.gen.utils import sequenceTypes from appy.shared.xml_parser import XmlUnmarshaller, XmlMarshaller # ------------------------------------------------------------------------------ class ResourceError(Exception): pass # ------------------------------------------------------------------------------ class FormDataEncoder: '''Allows to encode form data for sending it through a HTTP request.''' def __init__(self, data): self.data = data # The data to encode, as a dict def marshalValue(self, name, value): if isinstance(value, basestring): return '%s=%s' % (name, quote(str(value))) elif isinstance(value, float): return '%s:float=%s' % (name, value) elif isinstance(value, int): return '%s:int=%s' % (name, value) elif isinstance(value, long): res = '%s:long=%s' % (name, value) if res[-1] == 'L': res = res[:-1] return res else: raise 'Cannot encode value %s' % str(value) def encode(self): res = [] for name, value in self.data.iteritems(): res.append(self.marshalValue(name, value)) return '&'.join(res) # ------------------------------------------------------------------------------ class SoapDataEncoder: '''Allows to encode SOAP data for sending it through a HTTP request.''' namespaces = {'SOAP-ENV': 'http://schemas.xmlsoap.org/soap/envelope/', 'xsd' : 'http://www.w3.org/2001/XMLSchema', 'xsi' : 'http://www.w3.org/2001/XMLSchema-instance'} namespacedTags = {'Envelope': 'SOAP-ENV', 'Body': 'SOAP-ENV', '*': 'py'} def __init__(self, data, namespace='http://appyframework.org'): self.data = data # p_data can be: # - a string already containing a complete SOAP message # - a Python object, that we will convert to a SOAP message # Define the namespaces for this request self.ns = self.namespaces.copy() self.ns['py'] = namespace def encode(self): # Do nothing if we have a SOAP message already if isinstance(self.data, basestring): return self.data # self.data is here a Python object. Wrap it a SOAP Body. soap = Object(Body=self.data) # Marshall it. marshaller = XmlMarshaller(rootTag='Envelope', namespaces=self.ns, namespacedTags=self.namespacedTags) return marshaller.marshall(soap) # ------------------------------------------------------------------------------ class HttpResponse: '''Stores information about a HTTP response.''' def __init__(self, code, text, headers, body, duration=None): self.code = code # The return code, ie 404, 200, ... self.text = text # Textual description of the code self.headers = headers # A dict-like object containing the headers self.body = body # The body of the HTTP response # p_duration, if given, is the time, in seconds, we have waited, before # getting this response after having sent the request. self.duration = duration # The following attribute may contain specific data extracted from # the previous fields. For example, when response if 302 (Redirect), # self.data contains the URI where we must redirect the user to. self.data = self.extractData() def __repr__(self): duration = '' if self.duration: duration = ', got in %.4f seconds' % self.duration return '' % (self.code, self.text, duration) def extractContentType(self, contentType): '''Extract the content type from the HTTP header, potentially removing encoding-related data.''' i = contentType.find(';') if i != -1: return contentType[:i] return contentType xmlHeaders = ('text/xml', 'application/xml', 'application/soap+xml') def extractData(self): '''This method extracts, from the various parts of the HTTP response, some useful information. For example, it will find the URI where to redirect the user to if self.code is 302, or will unmarshall XML data into Python objects.''' if self.code == 302: return urlparse.urlparse(self.headers['location'])[2] elif self.headers.has_key('content-type'): contentType = self.extractContentType(self.headers['content-type']) for xmlHeader in self.xmlHeaders: if contentType.startswith(xmlHeader): # Return an unmarshalled version of the XML content, for # easy use in Python. try: return XmlUnmarshaller().parse(self.body) except xml.sax.SAXParseException, se: raise ResourceError('Invalid XML response (%s)'%str(se)) # ------------------------------------------------------------------------------ urlRex = re.compile(r'http://([^:/]+)(:[0-9]+)?(/.+)?', re.I) binaryRex = re.compile(r'[\000-\006\177-\277]') class Resource: '''Every instance of this class represents some web resource accessible through HTTP.''' def __init__(self, url, username=None, password=None, measure=False): self.username = username self.password = password self.url = url # If p_measure is True, we will measure, for every request sent, the # time we wait until we receive the response. self.measure = measure # If measure is True, we will store hereafter, the total time (in # seconds) spent waiting for the server for all requests sent through # this resource object. self.serverTime = 0 # Split the URL into its components res = urlRex.match(url) if res: host, port, uri = res.group(1,2,3) self.host = host self.port = port and int(port[1:]) or 80 self.uri = uri or '/' else: raise 'Wrong URL: %s' % str(url) # If some headers must be sent with any request sent through this # resource (like a cookie), you can store them in the following dict. self.headers = {'Host': self.host} def __repr__(self): return '' % self.url def updateHeaders(self, headers): # Add credentials if present if not (self.username and self.password): return if headers.has_key('Authorization'): return credentials = '%s:%s' % (self.username,self.password) credentials = credentials.replace('\012','') headers['Authorization'] = "Basic %s" % encodestring(credentials) headers['User-Agent'] = 'WebDAV.client' headers['Host'] = self.host headers['Connection'] = 'close' headers['Accept'] = '*/*' return headers def send(self, method, uri, body=None, headers={}, bodyType=None): '''Sends a HTTP request with p_method, for p_uri.''' conn = httplib.HTTP() try: conn.connect(self.host, self.port) except socket.gaierror, sge: raise ResourceError('Check your Internet connection (%s)'% str(sge)) except socket.error, se: raise ResourceError('Connection error (%s)'% str(se)) # Tell what kind of HTTP request it will be. conn.putrequest(method, uri) # Add HTTP headers self.updateHeaders(headers) if self.headers: headers.update(self.headers) for n, v in headers.items(): conn.putheader(n, v) conn.endheaders() # Add HTTP body if body: if not bodyType: bodyType = 'string' copyData(body, conn, 'send', type=bodyType) # Send the request, get the reply if self.measure: startTime = time.time() code, text, headers = conn.getreply() if self.measure: endTime = time.time() body = conn.getfile().read() conn.close() # Return a smart object containing the various parts of the response duration = None if self.measure: duration = endTime - startTime self.serverTime += duration return HttpResponse(code, text, headers, body, duration=duration) def mkdir(self, name): '''Creates a folder named p_name in this resource.''' folderUri = self.uri + '/' + name #body = '' \ # '%s' \ # '' % name return self.send('MKCOL', folderUri) def delete(self, name): '''Deletes a file or a folder (and all contained files if any) named p_name within this resource.''' toDeleteUri = self.uri + '/' + name return self.send('DELETE', toDeleteUri) def add(self, content, type='fileName', name=''): '''Adds a file in this resource. p_type can be: - "fileName" In this case, p_content is the path to a file on disk and p_name is ignored; - "zope" In this case, p_content is an instance of OFS.Image.File and the name of the file is given in p_name. ''' if type == 'fileName': # p_content is the name of a file on disk size = os.stat(content)[stat.ST_SIZE] body = file(content, 'rb') name = os.path.basename(content) fileType, encoding = guess_type(content) bodyType = 'file' elif type == 'zope': # p_content is a "Zope" file, ie a OFS.Image.File instance # p_name is given fileType = content.content_type encoding = None size = content.size body = content bodyType = 'zope' fileUri = self.uri + '/' + name headers = {'Content-Length': str(size)} if fileType: headers['Content-Type'] = fileType if encoding: headers['Content-Encoding'] = encoding res = self.send('PUT', fileUri, body, headers, bodyType=bodyType) # Close the file when relevant if type =='fileName': body.close() return res def get(self, uri=None, headers={}): '''Perform a HTTP GET on the server.''' if not uri: uri = self.uri return self.send('GET', uri, headers=headers) rss = get def post(self, data=None, uri=None, headers={}, encode='form'): '''Perform a HTTP POST on the server. If p_encode is "form", p_data is considered to be a dict representing form data that will be form-encoded. Else, p_data will be considered as the ready-to-send body of the HTTP request.''' if not uri: uri = self.uri # Prepare the data to send if encode == 'form': # Format the form data and prepare headers body = FormDataEncoder(data).encode() headers['Content-Type'] = 'application/x-www-form-urlencoded' else: body = data headers['Content-Length'] = str(len(body)) return self.send('POST', uri, headers=headers, body=body) def soap(self, data, uri=None, headers={}, namespace=None): '''Sends a SOAP message to this resource. p_namespace is the URL of the server-specific namespace.''' if not uri: uri = self.uri # Prepare the data to send data = SoapDataEncoder(data, namespace).encode() headers['SOAPAction'] = self.url headers['Content-Type'] = 'text/xml' res = self.post(data, uri, headers=headers, encode=None) # Unwrap content from the SOAP envelope res.data = res.data.Body return res # ------------------------------------------------------------------------------