def parseSetting(self, key, value):
"""
Parse a single setting for this object.
Settings are written in text files in a key=value fashion.
For each such setting that belongs to this object this method will be called.
After all settings have been given, the method checkSettings will be called.
If a setting does not parse correctly, this method raises an Exception with a descriptive message.
Subclassers should first parse their own settings and then call this implementation to have the
generic settings parsed and to have any unknown settings raise an Exception.
@param key The name of the parameter, i.e. the key from the key=value pair.
@param value The value of the parameter, i.e. the value from the key=value pair.
"""
if key == 'useWine':
if value == 'yes':
self.useWine = True
elif key == 'stopWhenSeeding':
if value == 'yes':
self.stopWhenSeeding = True
elif key == 'dht':
if value == 'yes':
self.useDHT = True
else:
client.parseSetting(self, key, value)
def parseSetting(self, key, value):
"""
Parse a single setting for this object.
Settings are written in text files in a key=value fashion.
For each such setting that belongs to this object this method will be called.
After all settings have been given, the method checkSettings will be called.
If a setting does not parse correctly, this method raises an Exception with a descriptive message.
Subclassers should first parse their own settings and then call this implementation to have the
generic settings parsed and to have any unknown settings raise an Exception.
@param key The name of the parameter, i.e. the key from the key=value pair.
@param value The value of the parameter, i.e. the value from the key=value pair.
"""
if key == 'testTime':
if self.testTime is not None:
parseError( "Test time already set to {0}".format( self.testTime ) )
if not isPositiveInt( value, True ):
parseError( "The number of seconds to wait must be a non-zero positive integer" )
self.testTime = value
else:
client.parseSetting(self, key, value)
def parseSetting(self, key, value):
"""
Parse a single setting for this object.
Settings are written in text files in a key=value fashion.
For each such setting that belongs to this object this method will be called.
After all settings have been given, the method checkSettings will be called.
If a setting does not parse correctly, this method raises an Exception with a descriptive message.
Subclassers should first parse their own settings and then call this implementation to have the
generic settings parsed and to have any unknown settings raise an Exception.
@param key The name of the parameter, i.e. the key from the key=value pair.
@param value The value of the parameter, i.e. the value from the key=value pair.
"""
if key == 'useSSL':
self.useSSL = (value != "no")
elif key == 'port':
if self.port:
parseError( "Port already set: {0}".format( self.port ) )
if not isPositiveInt( value, True ) or int(value) > 65535:
parseError( "Port should be a non-zero integer < 65536" )
self.port = int(value)
else:
client.parseSetting(self, key, value)
def parseSetting(self, key, value):
"""
Parse a single setting for this object.
Settings are written in text files in a key=value fashion.
For each such setting that belongs to this object this method will be called.
After all settings have been given, the method checkSettings will be called.
If a setting does not parse correctly, this method raises an Exception with a descriptive message.
Subclassers should first parse their own settings and then call this implementation to have the
generic settings parsed and to have any unknown settings raise an Exception.
@param key The name of the parameter, i.e. the key from the key=value pair.
@param value The value of the parameter, i.e. the value from the key=value pair.
"""
if key == 'port':
if self.port:
parseError( "Port already set: {0}".format( self.port ) )
if not isPositiveInt( value ) or int(value) < 1024 or int(value) > 65535:
parseError( "Port must be a positive integer greater than 1023 and smaller than 65536, not {0}".format( value ) )
self.port = int(value)
elif key == 'changeTracker' or key == 'changetracker':
if not isValidName( value ):
parseError( "{0} is not a valid name for a file object.".format( value ) )
self.changeTrackers.append( value )
elif key == 'changeClientTracker':
if not isValidName( value ):
parseError( "{0} is not a valid name for a client object.".format( value ) )
self.changeClientTrackers.append( value )
else:
client.parseSetting(self, key, value)
def parseSetting(self, key, value):
"""
Parse a single setting for this object.
Settings are written in text files in a key=value fashion.
For each such setting that belongs to this object this method will be called.
After all settings have been given, the method checkSettings will be called.
If a setting does not parse correctly, this method raises an Exception with a descriptive message.
Subclassers should first parse their own settings and then call this implementation to have the
generic settings parsed and to have any unknown settings raise an Exception.
@param key The name of the parameter, i.e. the key from the key=value pair.
@param value The value of the parameter, i.e. the value from the key=value pair.
"""
# TODO: Parse your settings. Example:
#
# if key == 'postFixParams':
# if self.postFixParams:
# parseError( 'Seriously. How many parameters do you need? Go clean up your stuff!' )
# self.postFixParams = value
# elif key == 'protocolVersion':
# if not isPositiveInt( value, False ):
# parseError( 'Can you even count? Because {0} is definitely not a valid protocol number.'.format( value ) )
# self.protocolVersion = value
# else:
# client.parseSetting( self, key, value )
#
# Do not forget that last case!
#
# The following implementation assumes you have no parameters specific to your client:
client.parseSetting(self, key, value)
def parseSetting(self, key, value):
"""
Parse a single setting for this object.
Settings are written in text files in a key=value fashion.
For each such setting that belongs to this object this method will be called.
After all settings have been given, the method checkSettings will be called.
If a setting does not parse correctly, this method raises an Exception with a descriptive message.
Subclassers should first parse their own settings and then call this implementation to have the
generic settings parsed and to have any unknown settings raise an Exception.
@param key The name of the parameter, i.e. the key from the key=value pair.
@param value The value of the parameter, i.e. the value from the key=value pair.
"""
if key == 'listenAddress':
if self.listenAddress:
parseError( "listenAddress is already set: {0}".format( self.listenAddress ) )
if containsSpace(value):
parseError( "listenAddress may not contain any whitespace" )
self.listenAddress = value
elif key == 'listenPort':
if self.listenPort:
parseError( "listenPort is already set: {0}".format( self.listenPort ) )
if not isPositiveInt( value, True ):
parseError( "listenPort must be a positive integer" )
self.listenPort = int(value)
elif key == 'tracker':
if self.tracker:
parseError( "tracker is already set: {0}".format( self.tracker ) )
if containsSpace(value):
parseError( "tracker may not contain any whitespace" )
self.tracker = value
elif key == 'wait':
if self.wait:
parseError( "wait is already set: {0}".format( self.wait ) )
if not isPositiveInt( value, True ):
parseError( "wait must be a positive integer" )
self.wait = int(value)
elif key == 'chunkSize':
if self.chunkSize:
parseError( "chunck size is already set: {0}".format( self.chunkSize ) )
if not isPositiveInt( value, True ):
parseError( "chunck size must be a positive integer" )
if int(value) % 1024 != 0:
parseError( "chunk sizes not divisible by 1024 are not supported" )
self.chunkSize = int(value)
else:
client.parseSetting(self, key, value)