GRAYBYTE | AutoShopMaker

Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

# # Helper transport objects # # Copyright (c) 2002--2016 Red Hat, Inc. # # Author: Mihai Ibanescu <misa@redhat.com> # Based on what was previously shipped as cgiwrap: # - Cristian Gafton <gafton@redhat.com> # - Erik Troan <ewt@redhat.com> # Transport objects import os import sys import time from rhn import connections from rhn.i18n import sstr, bstr from rhn.SmartIO import SmartIO from rhn.UserDictCase import UserDictCase try: # python2 import xmlrpclib from types import IntType, StringType, ListType except ImportError: # python3 import xmlrpc.client as xmlrpclib IntType = int StringType = bytes ListType = list __version__ = "2.8.62.8.6-8.module_el8.10.0+6858+3ddf28328.module_el8.10.0+6858+3ddf2832" # XXX COMPRESS_LEVEL = 6 # Exceptions class NotProcessed(Exception): pass class Transport(xmlrpclib.Transport): user_agent = "rhn.rpclib.py/%s" % __version__ def __init__(self, transfer=0, encoding=0, refreshCallback=None, progressCallback=None, use_datetime=None, timeout=None): self._use_builtin_types = False self._transport_flags = {'transfer' : 0, 'encoding' : 0} self.set_transport_flags(transfer=transfer, encoding=encoding) self._headers = UserDictCase() self.verbose = 0 self.connection = None self.method = "POST" self._lang = None self.refreshCallback = refreshCallback self.progressCallback = progressCallback self.bufferSize = 16384 self.headers_in = None self.response_status = None self.response_reason = None self._redirected = None self._use_datetime = use_datetime self.timeout = timeout # set the progress callback def set_progress_callback(self, progressCallback, bufferSize=16384): self.progressCallback = progressCallback self.bufferSize = bufferSize # set the refresh callback def set_refresh_callback(self, refreshCallback): self.refreshCallback = refreshCallback # set the buffer size # The bigger this is, the faster the read is, but the more seldom is the # progress callback called def set_buffer_size(self, bufferSize): if bufferSize is None: # No buffer size specified; go with 16k bufferSize = 16384 self.bufferSize = bufferSize # set the request method def set_method(self, method): if method not in ("GET", "POST"): raise IOError("Unknown request method %s" % method) self.method = method # reset the transport options def set_transport_flags(self, transfer=None, encoding=None, **kwargs): # For backwards compatibility, we keep transfer and encoding as # positional parameters (they could come in as kwargs easily) self._transport_flags.update(kwargs) if transfer is not None: self._transport_flags['transfer'] = transfer if encoding is not None: self._transport_flags['encoding'] = encoding self.validate_transport_flags() def get_transport_flags(self): return self._transport_flags.copy() def validate_transport_flags(self): # Transfer and encoding are guaranteed to be there transfer = self._transport_flags.get('transfer') transfer = lookupTransfer(transfer, strict=1) self._transport_flags['transfer'] = transfer encoding = self._transport_flags.get('encoding') encoding = lookupEncoding(encoding, strict=1) self._transport_flags['encoding'] = encoding # Add arbitrary additional headers. def set_header(self, name, arg): if type(arg) in [ type([]), type(()) ]: # Multivalued header self._headers[name] = [str(a) for a in arg] else: self._headers[name] = str(arg) def add_header(self, name, arg): if name in self._headers: vlist = self._headers[name] if not isinstance(vlist, ListType): vlist = [ vlist ] else: vlist = self._headers[name] = [] vlist.append(str(arg)) def clear_headers(self): self._headers.clear() def get_connection(self, host): if self.verbose: print("Connecting via http to %s" % (host, )) if self.timeout: return connections.HTTPConnection(host, timeout=self.timeout) else: return connections.HTTPConnection(host) def request(self, host, handler, request_body, verbose=0): # issue XML-RPC request # XXX: automatically compute how to send depending on how much data # you want to send # XXX Deal with HTTP/1.1 if necessary self.verbose = verbose # implement BASIC HTTP AUTHENTICATION host, extra_headers, x509 = self.get_host_info(host) if not extra_headers: extra_headers = [] # Establish the connection connection = self.get_connection(host) # Setting the user agent. Only interesting for SSL tunnels, in any # other case the general headers are good enough. connection.set_user_agent(self.user_agent) if self.verbose: connection.set_debuglevel(self.verbose - 1) # Get the output object to push data with req = Output(connection=connection, method=self.method) req.set_transport_flags(**self._transport_flags) # Add the extra headers req.set_header('User-Agent', self.user_agent) for header, value in list(self._headers.items()) + extra_headers: # Output.set_header correctly deals with multivalued headers now req.set_header(header, value) # Content-Type req.set_header("Content-Type", "text/xml") req.process(request_body) # Host and Content-Length are set by HTTP*Connection for h in ['Content-Length', 'Host']: req.clear_header(h) headers, fd = req.send_http(host, handler) if self.verbose: print("Incoming headers:") for header, value in headers.items(): print("\t%s : %s" % (header, value)) if fd.status in (301, 302): self._redirected = headers["Location"] self.response_status = fd.status return None # Save the headers self.headers_in = headers self.response_status = fd.status self.response_reason = fd.reason return self._process_response(fd, connection) def _process_response(self, fd, connection): # Now use the Input class in case we get an enhanced response resp = Input(self.headers_in, progressCallback=self.progressCallback, bufferSize=self.bufferSize) fd = resp.decode(fd) if isinstance(fd, InputStream): # When the File object goes out of scope, so will the InputStream; # that will eventually call the connection's close() method and # cleanly reap it f = File(fd.fd, fd.length, fd.name, bufferSize=self.bufferSize, progressCallback=self.progressCallback) # Set the File's close method to the connection's # Note that calling the HTTPResponse's close() is not enough, # since the main socket would remain open, and this is # particularily bad with SSL f.close = connection.close return f # We can safely close the connection now; if we had an # application/octet/stream (for which Input.read passes the original # socket object), Input.decode would return an InputStream, # so we wouldn't reach this point connection.close() return self.parse_response(fd) # Give back the new URL if redirected def redirected(self): return self._redirected # Rewrite parse_response to provide refresh callbacks def parse_response(self, f): # read response from input file, and parse it p, u = self.getparser() while 1: response = f.read(1024) if not response: break if self.refreshCallback: self.refreshCallback() if self.verbose: print("body:", repr(response)) p.feed(response) f.close() p.close() return u.close() def setlang(self, lang): self._lang = lang class SafeTransport(Transport): def __init__(self, transfer=0, encoding=0, refreshCallback=None, progressCallback=None, trusted_certs=None, timeout=None): Transport.__init__(self, transfer, encoding, refreshCallback=refreshCallback, progressCallback=progressCallback, timeout=timeout) self.trusted_certs = [] for certfile in (trusted_certs or []): self.add_trusted_cert(certfile) def add_trusted_cert(self, certfile): if not os.access(certfile, os.R_OK): raise ValueError("Certificate file %s is not accessible" % certfile) self.trusted_certs.append(certfile) def get_connection(self, host): # implement BASIC HTTP AUTHENTICATION host, extra_headers, x509 = self.get_host_info(host) if self.verbose: print("Connecting via https to %s" % (host, )) if self.timeout: return connections.HTTPSConnection(host, trusted_certs=self.trusted_certs, timeout=self.timeout) else: return connections.HTTPSConnection(host, trusted_certs=self.trusted_certs) class ProxyTransport(Transport): def __init__(self, proxy, proxyUsername=None, proxyPassword=None, transfer=0, encoding=0, refreshCallback=None, progressCallback=None, timeout=None): Transport.__init__(self, transfer, encoding, refreshCallback=refreshCallback, progressCallback=progressCallback, timeout=timeout) self._proxy = proxy self._proxy_username = proxyUsername self._proxy_password = proxyPassword def get_connection(self, host): if self.verbose: print("Connecting via http to %s proxy %s, username %s, pass %s" % ( host, self._proxy, self._proxy_username, self._proxy_password)) if self.timeout: return connections.HTTPProxyConnection(self._proxy, host, username=self._proxy_username, password=self._proxy_password, timeout=self.timeout) else: return connections.HTTPProxyConnection(self._proxy, host, username=self._proxy_username, password=self._proxy_password) class SafeProxyTransport(ProxyTransport): def __init__(self, proxy, proxyUsername=None, proxyPassword=None, transfer=0, encoding=0, refreshCallback=None, progressCallback=None, trusted_certs=None, timeout=None): ProxyTransport.__init__(self, proxy, proxyUsername=proxyUsername, proxyPassword=proxyPassword, transfer=transfer, encoding=encoding, refreshCallback=refreshCallback, progressCallback=progressCallback, timeout=timeout) self.trusted_certs = [] for certfile in (trusted_certs or []): self.add_trusted_cert(certfile) def add_trusted_cert(self, certfile): if not os.access(certfile, os.R_OK): raise ValueError("Certificate file %s is not accessible" % certfile) self.trusted_certs.append(certfile) def get_connection(self, host): if self.verbose: print("Connecting via https to %s proxy %s, username %s, pass %s" % ( host, self._proxy, self._proxy_username, self._proxy_password)) if self.timeout: return connections.HTTPSProxyConnection(self._proxy, host, username=self._proxy_username, password=self._proxy_password, trusted_certs=self.trusted_certs, timeout=self.timeout) else: return connections.HTTPSProxyConnection(self._proxy, host, username=self._proxy_username, password=self._proxy_password, trusted_certs=self.trusted_certs) # ============================================================================ # Extended capabilities for transport # # We allow for the following possible headers: # # Content-Transfer-Encoding: # This header tells us how the POST data is encoded in what we read. # If it is not set, we assume plain text that can be passed along # without any other modification. If set, valid values are: # - binary : straight binary data # - base64 : will pass through base64 decoder to get the binary data # # Content-Encoding: # This header tells us what should we do with the binary data obtained # after acting on the Content-Transfer-Encoding header. Valid values: # - x-gzip : will need to pass through GNU gunzip-like to get plain # text out # - x-zlib : this denotes the Python's own zlib bindings which are a # datastream based on gzip, but not quite # - x-gpg : will need to pass through GPG to get out the text we want # ============================================================================ # Input class to automate reading the posting from the network # Having to work with environment variables blows, though class Input: def __init__(self, headers=None, progressCallback=None, bufferSize=1024, max_mem_size=16384): self.transfer = None self.encoding = None self.type = None self.length = 0 self.lang = "C" self.name = "" self.progressCallback = progressCallback self.bufferSize = bufferSize self.max_mem_size = max_mem_size if not headers: # we need to get them from environment if "HTTP_CONTENT_TRANSFER_ENCODING" in os.environ: self.transfer = os.environ["HTTP_CONTENT_TRANSFER_ENCODING"].lower() if "HTTP_CONTENT_ENCODING" in os.environ: self.encoding = os.environ["HTTP_CONTENT_ENCODING"].lower() if "CONTENT-TYPE" in os.environ: self.type = os.environ["CONTENT-TYPE"].lower() if "CONTENT_LENGTH" in os.environ: self.length = int(os.environ["CONTENT_LENGTH"]) if "HTTP_ACCEPT_LANGUAGE" in os.environ: self.lang = os.environ["HTTP_ACCEPT_LANGUAGE"] if "HTTP_X_PACKAGE_FILENAME" in os.environ: self.name = os.environ["HTTP_X_PACKAGE_FILENAME"] else: # The stupid httplib screws up the headers from the HTTP repsonse # and converts them to lowercase. This means that we have to # convert to lowercase all the dictionary keys in case somebody calls # us with sane values --gaftonc (actually mimetools is the culprit) for header in headers.keys(): value = headers[header] h = header.lower() if h == "content-length": try: self.length = int(value) except ValueError: self.length = 0 elif h == "content-transfer-encoding": # RFC 2045 #6.1: case insensitive self.transfer = value.lower() elif h == "content-encoding": # RFC 2616 #3.5: case insensitive self.encoding = value.lower() elif h == "content-type": # RFC 2616 #3.7: case insensitive self.type = value.lower() elif h == "accept-language": # RFC 2616 #3.10: case insensitive self.lang = value.lower() elif h == "x-package-filename": self.name = value self.io = None def read(self, fd = sys.stdin): # The octet-streams are passed right back if self.type == "application/octet-stream": return if self.length: # Read exactly the amount of data we were told self.io = _smart_read(fd, self.length, bufferSize=self.bufferSize, progressCallback=self.progressCallback, max_mem_size=self.max_mem_size) else: # Oh well, no clue; read until EOF (hopefully) self.io = _smart_total_read(fd) if not self.transfer or self.transfer == "binary": return elif self.transfer == "base64": import base64 old_io = self.io old_io.seek(0, 0) self.io = SmartIO(max_mem_size=self.max_mem_size) base64.decode(old_io, self.io) else: raise NotImplementedError(self.transfer) def decode(self, fd = sys.stdin): # The octet-stream data are passed right back if self.type == "application/octet-stream": return InputStream(fd, self.length, self.name, close=fd.close) if not self.io: self.read(fd) # At this point self.io exists (the only case when self.read() does # not initialize self.io is when content-type is # "application/octet-stream" - and we already dealt with that case # We can now close the file descriptor if hasattr(fd, "close"): fd.close() # Now we have the binary goo if not self.encoding or self.encoding == "__plain": # all is fine. pass elif self.encoding in ("x-zlib", "deflate"): import zlib obj = zlib.decompressobj() self.io.seek(0, 0) data = obj.decompress(self.io.read()) + obj.flush() del obj self.length = len(data) self.io = SmartIO(max_mem_size=self.max_mem_size) self.io.write(data) elif self.encoding in ("x-gzip", "gzip"): import gzip self.io.seek(0, 0) gz = gzip.GzipFile(mode="rb", compresslevel = COMPRESS_LEVEL, fileobj=self.io) data = gz.read() self.length = len(data) self.io = SmartIO(max_mem_size=self.max_mem_size) self.io.write(data) elif self.encoding == "x-gpg": # XXX: should be written raise NotImplementedError(self.transfer, self.encoding) else: raise NotImplementedError(self.transfer, self.encoding) # Play nicely and rewind the file descriptor self.io.seek(0, 0) return self.io def getlang(self): return self.lang # Utility functions def _smart_total_read(fd, bufferSize=1024, max_mem_size=16384): """ Tries to read data from the supplied stream, and puts the results into a StmartIO object. The data will be in memory or in a temporary file, depending on how much it's been read Returns a SmartIO object """ io = SmartIO(max_mem_size=max_mem_size) while 1: chunk = fd.read(bufferSize) if not chunk: # EOF reached break io.write(chunk) return io def _smart_read(fd, amt, bufferSize=1024, progressCallback=None, max_mem_size=16384): # Reads amt bytes from fd, or until the end of file, whichever # occurs first # The function will read in memory if the amout to be read is smaller than # max_mem_size, or to a temporary file otherwise # # Unlike read(), _smart_read tries to return exactly the requested amount # (whereas read will return _up_to_ that amount). Reads from sockets will # usually reaturn less data, or the read can be interrupted # # Inspired by Greg Stein's httplib.py (the standard in python 2.x) # # support for progress callbacks added startTime = time.time() lastTime = startTime buf = SmartIO(max_mem_size=max_mem_size) origsize = amt while amt > 0: curTime = time.time() l = min(bufferSize, amt) chunk = fd.read(l) # read guarantees that len(chunk) <= l l = len(chunk) if not l: # Oops. Most likely EOF break # And since the original l was smaller than amt, we know amt >= 0 amt = amt - l buf.write(chunk) if progressCallback is None: # No progress callback, so don't do fancy computations continue # We update the progress callback if: # we haven't updated it for more than a secord, or # it's the last read (amt == 0) if curTime - lastTime >= 1 or amt == 0: lastTime = curTime # use float() so that we force float division in the next step bytesRead = float(origsize - amt) # if amt == 0, on a fast machine it is possible to have # curTime - lastTime == 0, so add an epsilon to prevent a division # by zero speed = bytesRead / ((curTime - startTime) + .000001) if origsize == 0: secs = 0 else: # speed != 0 because bytesRead > 0 # (if bytesRead == 0 then origsize == amt, which means a read # of 0 length; but that's impossible since we already checked # that l is non-null secs = amt / speed progressCallback(bytesRead, origsize, speed, secs) # Now rewind the SmartIO buf.seek(0, 0) return buf class InputStream: def __init__(self, fd, length, name = "<unknown>", close=None): self.fd = fd self.length = int(length) self.name = name # Close function self.close = close def __repr__(self): return "Input data is a stream of %d bytes for file %s.\n" % (self.length, self.name) # ============================================================================ # Output class that will be used to build the temporary output string class BaseOutput: # DEFINES for instances use # Content-Encoding ENCODE_NONE = 0 ENCODE_GZIP = 1 ENCODE_ZLIB = 2 ENCODE_GPG = 3 # Content-Transfer-Encoding TRANSFER_NONE = 0 TRANSFER_BINARY = 1 TRANSFER_BASE64 = 2 # Mappings to make things easy encodings = [ [None, "__plain"], # ENCODE_NONE ["x-gzip", "gzip"], # ENCODE_GZIP ["x-zlib", "deflate"], # ENCODE_ZLIB ["x-gpg"], # ENCODE_GPG ] transfers = [ None, # TRANSFER_NONE "binary", # TRANSFRE_BINARY "base64", # TRANSFER_BASE64 ] def __init__(self, transfer=0, encoding=0, connection=None, method="POST"): # Assumes connection is an instance of HTTPConnection if connection: if not isinstance(connection, connections.HTTPConnection): raise Exception("Expected an HTTPConnection type object") self.method = method # Store the connection self._connection = connection self.data = None self.headers = UserDictCase() self.encoding = 0 self.transfer = 0 self.transport_flags = {} # for authenticated proxies self.username = None self.password = None # Fields to keep the information about the server self._host = None self._handler = None self._http_type = None self._protocol = None # Initialize self.transfer and self.encoding self.set_transport_flags(transfer=transfer, encoding=encoding) # internal flags self.__processed = 0 def set_header(self, name, arg): if type(arg) in [ type([]), type(()) ]: # Multi-valued header # # Per RFC 2616, section 4.2 (Message Headers): # Multiple message-header fields with the same field-name MAY be # present in a message if and only if the entire field-value for # the header field is defined as a comma-separated list [i.e. # #(values)]. It MUST be possible to combine the multiple header # fields into one "field-name: field-value" pair, without # changing the semantics of the message, by appending each # subsequent field-value to the first, each separated by a comma. self.headers[name] = ','.join(map(str, arg)) else: self.headers[name] = str(arg) def clear_header(self, name): if name in self.headers: del self.headers[name] def process(self, data): # Assume straight text/xml self.data = data # Content-Encoding header if self.encoding == self.ENCODE_GZIP: import gzip encoding_name = self.encodings[self.ENCODE_GZIP][0] self.set_header("Content-Encoding", encoding_name) f = SmartIO(force_mem=1) gz = gzip.GzipFile(mode="wb", compresslevel=COMPRESS_LEVEL, fileobj = f) if sys.version_info[0] == 3: gz.write(bstr(data)) else: gz.write(sstr(data)) gz.close() self.data = f.getvalue() f.close() elif self.encoding == self.ENCODE_ZLIB: import zlib encoding_name = self.encodings[self.ENCODE_ZLIB][0] self.set_header("Content-Encoding", encoding_name) obj = zlib.compressobj(COMPRESS_LEVEL) self.data = obj.compress(data) + obj.flush() elif self.encoding == self.ENCODE_GPG: # XXX: fix me. raise NotImplementedError(self.transfer, self.encoding) encoding_name = self.encodings[self.ENCODE_GPG][0] self.set_header("Content-Encoding", encoding_name) # Content-Transfer-Encoding header if self.transfer == self.TRANSFER_BINARY: transfer_name = self.transfers[self.TRANSFER_BINARY] self.set_header("Content-Transfer-Encoding", transfer_name) self.set_header("Content-Type", "application/binary") elif self.transfer == self.TRANSFER_BASE64: import base64 transfer_name = self.transfers[self.TRANSFER_BASE64] self.set_header("Content-Transfer-Encoding", transfer_name) self.set_header("Content-Type", "text/base64") self.data = base64.encodestring(self.data) self.set_header("Content-Length", len(self.data)) rpc_version = __version__ if len(__version__.split()) > 1: rpc_version = __version__.split()[1] # other headers self.set_header("X-Transport-Info", 'Extended Capabilities Transport (C) Red Hat, Inc (version %s)' % rpc_version) self.__processed = 1 # reset the transport options def set_transport_flags(self, transfer=0, encoding=0, **kwargs): self.transfer = transfer self.encoding = encoding self.transport_flags.update(kwargs) def send_http(self, host, handler="/RPC2"): if not self.__processed: raise NotProcessed self._host = host if self._connection is None: raise Exception("No connection object found") self._connection.connect() # wrap self data into binary object, otherwise HTTPConnection.request # will encode it as ISO-8859-1 https://docs.python.org/3/library/http.client.html#httpconnection-objects self._connection.request(self.method, handler, body=bstr(self.data), headers=self.headers) response = self._connection.getresponse() if not self.response_acceptable(response): raise xmlrpclib.ProtocolError("%s %s" % (self._host, handler), response.status, response.reason, response.msg) # A response object has read() and close() methods, so we can safely # pass the whole object back return response.msg, response def response_acceptable(self, response): """Returns true if the response is acceptable""" if response.status == 200: return 1 if response.status in (301, 302): return 1 if response.status != 206: return 0 # If the flag is not set, it's unacceptable if not self.transport_flags.get('allow_partial_content'): return 0 if response.msg['Content-Type'] != 'application/octet-stream': # Don't allow anything else to be requested as a range, it could # break the XML parser return 0 return 1 def close(self): if self._connection: self._connection.close() self._connection = None def lookupTransfer(transfer, strict=0): """Given a string or numeric representation of a transfer, return the transfer code""" if transfer is None: # Plain return 0 if isinstance(transfer, IntType) and 0 <= transfer < len(Output.transfers): return transfer if isinstance(transfer, StringType): for i in range(len(Output.transfers)): if Output.transfers[i] == transfer.lower(): return i if strict: raise ValueError("Unsupported transfer %s" % transfer) # Return default return 0 def lookupEncoding(encoding, strict=0): """Given a string or numeric representation of an encoding, return the encoding code""" if encoding is None: # Plain return 0 if isinstance(encoding, IntType) and 0 <= encoding < len(Output.encodings): return encoding if isinstance(encoding, StringType): for i in range(len(Output.encodings)): if encoding.lower() in Output.encodings[i]: return i if strict: raise ValueError("Unsupported encoding %s" % encoding) # Return default return 0 Output = BaseOutput # File object class File: def __init__(self, file_obj, length = 0, name = None, progressCallback=None, bufferSize=16384): self.length = length self.file_obj = file_obj self.close = file_obj.close self.bufferSize=bufferSize self.name = "" if name: self.name = name[name.rfind("/")+1:] self.progressCallback = progressCallback def __len__(self): return self.length def read(self, amt=None): # If they want to read everything, use _smart_read if amt is None: fd = self._get_file() return fd.read() return self.file_obj.read(amt) def read_to_file(self, file): """Copies the contents of this File object into another file object""" fd = self._get_file() while 1: buf = fd.read(self.bufferSize) if not buf: break if sys.version_info[0] == 3: file.write(bstr(buf)) else: file.write(sstr(buf)) return file def _get_file(self): """Read everything into a temporary file and call the progress callbacks if the file length is defined, or just reads till EOF""" if self.length: io = _smart_read(self.file_obj, self.length, bufferSize=self.bufferSize, progressCallback=self.progressCallback) io.seek(0, 0) else: # Read everuthing - no callbacks involved io = _smart_total_read(self.file_obj, bufferSize=self.bufferSize) io.seek(0, 0) return io def __del__(self): if self.close: self.close() self.close = None