lib/gen_arg.py - openbmc/openbmc-test-automation - Gitiles

 #!/usr/bin/env python

 r"""
 This module provides valuable argument processing functions like
 gen_get_options and sprint_args.
 """

 import sys
 import __builtin__
 import atexit
 import signal
 import argparse

 import gen_print as gp
 import gen_valid as gv

 default_string = '  The default value is "%(default)s".'


 def gen_get_options(parser,
                     stock_list=[]):
     r"""
     Parse the command line arguments using the parser object passed and return
     True/False (i.e. pass/fail).  However, if gv.exit_on_error is set, simply
     exit the program on failure.  Also set the following built in values:

     __builtin__.quiet      This value is used by the qprint functions.
     __builtin__.test_mode  This value is used by command processing functions.
     __builtin__.debug      This value is used by the dprint functions.
     __builtin__.arg_obj    This value is used by print_program_header, etc.
     __builtin__.parser     This value is used by print_program_header, etc.

     Description of arguments:
     parser                          A parser object.  See argparse module
                                     documentation for details.
     stock_list                      The caller can use this parameter to
                                     request certain stock parameters offered
                                     by this function.  For example, this
                                     function will define a "quiet" option upon
                                     request.  This includes stop help text and
                                     parm checking.  The stock_list is a list
                                     of tuples each of which consists of an
                                     arg_name and a default value.  Example:
                                     stock_list = [("test_mode", 0), ("quiet",
                                     1), ("debug", 0)]
     """

     # This is a list of stock parms that we support.
     master_stock_list = ["quiet", "test_mode", "debug", "loglevel"]

     # Process stock_list.
     for ix in range(0, len(stock_list)):
         if len(stock_list[ix]) < 1:
             error_message = "Programmer error - stock_list[" + str(ix) +\
                             "] is supposed to be a tuple containing at" +\
                             " least one element which is the name of" +\
                             " the desired stock parameter:\n" +\
                             gp.sprint_var(stock_list)
             return gv.process_error_message(error_message)
         if type(stock_list[ix]) is tuple:
             arg_name = stock_list[ix][0]
             default = stock_list[ix][1]
         else:
             arg_name = stock_list[ix]
             default = None

         if arg_name not in master_stock_list:
             error_message = "Programmer error - arg_name \"" + arg_name +\
                             "\" not found found in stock list:\n" +\
                             gp.sprint_var(master_stock_list)
             return gv.process_error_message(error_message)

         if arg_name == "quiet":
             if default is None:
                 default = 0
             parser.add_argument(
                 '--quiet',
                 default=default,
                 type=int,
                 choices=[1, 0],
                 help='If this parameter is set to "1", %(prog)s' +
                      ' will print only essential information, i.e. it will' +
                      ' not echo parameters, echo commands, print the total' +
                      ' run time, etc.' + default_string)
         elif arg_name == "test_mode":
             if default is None:
                 default = 0
             parser.add_argument(
                 '--test_mode',
                 default=default,
                 type=int,
                 choices=[1, 0],
                 help='This means that %(prog)s should go through all the' +
                      ' motions but not actually do anything substantial.' +
                      '  This is mainly to be used by the developer of' +
                      ' %(prog)s.' + default_string)
         elif arg_name == "debug":
             if default is None:
                 default = 0
             parser.add_argument(
                 '--debug',
                 default=default,
                 type=int,
                 choices=[1, 0],
                 help='If this parameter is set to "1", %(prog)s will print' +
                      ' additional debug information.  This is mainly to be' +
                      ' used by the developer of %(prog)s.' + default_string)
         elif arg_name == "loglevel":
             if default is None:
                 default = "info"
             parser.add_argument(
                 '--loglevel',
                 default=default,
                 type=str,
                 choices=['DEBUG', 'INFO', 'WARNING', 'ERROR', 'CRITICAL',
                          'debug', 'info', 'warning', 'error', 'critical'],
                 help='If this parameter is set to "1", %(prog)s will print' +
                      ' additional debug information.  This is mainly to be' +
                      ' used by the developer of %(prog)s.' + default_string)

     arg_obj = parser.parse_args()

     __builtin__.quiet = 0
     __builtin__.test_mode = 0
     __builtin__.debug = 0
     __builtin__.loglevel = 'WARNING'
     for ix in range(0, len(stock_list)):
         if type(stock_list[ix]) is tuple:
             arg_name = stock_list[ix][0]
             default = stock_list[ix][1]
         else:
             arg_name = stock_list[ix]
             default = None
         if arg_name == "quiet":
             __builtin__.quiet = arg_obj.quiet
         elif arg_name == "test_mode":
             __builtin__.test_mode = arg_obj.test_mode
         elif arg_name == "debug":
             __builtin__.debug = arg_obj.debug
         elif arg_name == "loglevel":
             __builtin__.loglevel = arg_obj.loglevel

     __builtin__.arg_obj = arg_obj
     __builtin__.parser = parser

     # For each command line parameter, create a corresponding global variable
     # and assign it the appropriate value.  For example, if the command line
     # contained "--last_name='Smith', we'll create a global variable named
     # "last_name" with the value "Smith".
     module = sys.modules['__main__']
     for key in arg_obj.__dict__:
         setattr(module, key, getattr(__builtin__.arg_obj, key))

     return True


 def set_pgm_arg(var_value,
                 var_name=None):
     r"""
     Set the value of the arg_obj.__dict__ entry named in var_name with the
     var_value provided.  Also, set corresponding global variable.

     Description of arguments:
     var_value                       The value to set in the variable.
     var_name                        The name of the variable to set.  This
                                     defaults to the name of the variable used
                                     for var_value when calling this function.
     """

     if var_name is None:
         var_name = gp.get_arg_name(None, 1, 2)

     arg_obj.__dict__[var_name] = var_value
     module = sys.modules['__main__']
     setattr(module, var_name, var_value)
     if var_name == "quiet":
         __builtin__.quiet = var_value
     elif var_name == "debug":
         __builtin__.debug = var_value
     elif var_name == "test_mode":
         __builtin__.test_mode = var_value


 def sprint_args(arg_obj,
                 indent=0):
     r"""
     sprint_var all of the arguments found in arg_obj and return the result as
     a string.

     Description of arguments:
     arg_obj                         An argument object such as is returned by
                                     the argparse parse_args() method.
     indent                          The number of spaces to indent each line
                                     of output.
     """

     loc_col1_width = gp.col1_width + indent

     buffer = ""

     for key in arg_obj.__dict__:
         buffer += gp.sprint_varx(key, getattr(arg_obj, key), 0, indent,
                                  loc_col1_width)

     return buffer


 def gen_post_validation(exit_function=None,
                         signal_handler=None):
     r"""
     Do generic post-validation processing.  By "post", we mean that this is to
     be called from a validation function after the caller has done any
     validation desired.  If the calling program passes exit_function and
     signal_handler parms, this function will register them.  In other words,
     it will make the signal_handler functions get called for SIGINT and
     SIGTERM and will make the exit_function function run prior to the
     termination of the program.

     Description of arguments:
     exit_function                   A function object pointing to the caller's
                                     exit function.
     signal_handler                  A function object pointing to the caller's
                                     signal_handler function.
     """

     if exit_function is not None:
         atexit.register(exit_function)
     if signal_handler is not None:
         signal.signal(signal.SIGINT, signal_handler)
         signal.signal(signal.SIGTERM, signal_handler)
	#!/usr/bin/env python

	r"""
	This module provides valuable argument processing functions like
	gen_get_options and sprint_args.
	"""

	import sys
	import __builtin__
	import atexit
	import signal
	import argparse

	import gen_print as gp
	import gen_valid as gv

	default_string = ' The default value is "%(default)s".'


	def gen_get_options(parser,
	stock_list=[]):
	r"""
	Parse the command line arguments using the parser object passed and return
	True/False (i.e. pass/fail). However, if gv.exit_on_error is set, simply
	exit the program on failure. Also set the following built in values:

	__builtin__.quiet This value is used by the qprint functions.
	__builtin__.test_mode This value is used by command processing functions.
	__builtin__.debug This value is used by the dprint functions.
	__builtin__.arg_obj This value is used by print_program_header, etc.
	__builtin__.parser This value is used by print_program_header, etc.

	Description of arguments:
	parser A parser object. See argparse module
	documentation for details.
	stock_list The caller can use this parameter to
	request certain stock parameters offered
	by this function. For example, this
	function will define a "quiet" option upon
	request. This includes stop help text and
	parm checking. The stock_list is a list
	of tuples each of which consists of an
	arg_name and a default value. Example:
	stock_list = [("test_mode", 0), ("quiet",
	1), ("debug", 0)]
	"""

	# This is a list of stock parms that we support.
	master_stock_list = ["quiet", "test_mode", "debug", "loglevel"]

	# Process stock_list.
	for ix in range(0, len(stock_list)):
	if len(stock_list[ix]) < 1:
	error_message = "Programmer error - stock_list[" + str(ix) +\
	"] is supposed to be a tuple containing at" +\
	" least one element which is the name of" +\
	" the desired stock parameter:\n" +\
	gp.sprint_var(stock_list)
	return gv.process_error_message(error_message)
	if type(stock_list[ix]) is tuple:
	arg_name = stock_list[ix][0]
	default = stock_list[ix][1]
	else:
	arg_name = stock_list[ix]
	default = None

	if arg_name not in master_stock_list:
	error_message = "Programmer error - arg_name \"" + arg_name +\
	"\" not found found in stock list:\n" +\
	gp.sprint_var(master_stock_list)
	return gv.process_error_message(error_message)

	if arg_name == "quiet":
	if default is None:
	default = 0
	parser.add_argument(
	'--quiet',
	default=default,
	type=int,
	choices=[1, 0],
	help='If this parameter is set to "1", %(prog)s' +
	' will print only essential information, i.e. it will' +
	' not echo parameters, echo commands, print the total' +
	' run time, etc.' + default_string)
	elif arg_name == "test_mode":
	if default is None:
	default = 0
	parser.add_argument(
	'--test_mode',
	default=default,
	type=int,
	choices=[1, 0],
	help='This means that %(prog)s should go through all the' +
	' motions but not actually do anything substantial.' +
	' This is mainly to be used by the developer of' +
	' %(prog)s.' + default_string)
	elif arg_name == "debug":
	if default is None:
	default = 0
	parser.add_argument(
	'--debug',
	default=default,
	type=int,
	choices=[1, 0],
	help='If this parameter is set to "1", %(prog)s will print' +
	' additional debug information. This is mainly to be' +
	' used by the developer of %(prog)s.' + default_string)
	elif arg_name == "loglevel":
	if default is None:
	default = "info"
	parser.add_argument(
	'--loglevel',
	default=default,
	type=str,
	choices=['DEBUG', 'INFO', 'WARNING', 'ERROR', 'CRITICAL',
	'debug', 'info', 'warning', 'error', 'critical'],
	help='If this parameter is set to "1", %(prog)s will print' +
	' additional debug information. This is mainly to be' +
	' used by the developer of %(prog)s.' + default_string)

	arg_obj = parser.parse_args()

	__builtin__.quiet = 0
	__builtin__.test_mode = 0
	__builtin__.debug = 0
	__builtin__.loglevel = 'WARNING'
	for ix in range(0, len(stock_list)):
	if type(stock_list[ix]) is tuple:
	arg_name = stock_list[ix][0]
	default = stock_list[ix][1]
	else:
	arg_name = stock_list[ix]
	default = None
	if arg_name == "quiet":
	__builtin__.quiet = arg_obj.quiet
	elif arg_name == "test_mode":
	__builtin__.test_mode = arg_obj.test_mode
	elif arg_name == "debug":
	__builtin__.debug = arg_obj.debug
	elif arg_name == "loglevel":
	__builtin__.loglevel = arg_obj.loglevel

	__builtin__.arg_obj = arg_obj
	__builtin__.parser = parser

	# For each command line parameter, create a corresponding global variable
	# and assign it the appropriate value. For example, if the command line
	# contained "--last_name='Smith', we'll create a global variable named
	# "last_name" with the value "Smith".
	module = sys.modules['__main__']
	for key in arg_obj.__dict__:
	setattr(module, key, getattr(__builtin__.arg_obj, key))

	return True


	def set_pgm_arg(var_value,
	var_name=None):
	r"""
	Set the value of the arg_obj.__dict__ entry named in var_name with the
	var_value provided. Also, set corresponding global variable.

	Description of arguments:
	var_value The value to set in the variable.
	var_name The name of the variable to set. This
	defaults to the name of the variable used
	for var_value when calling this function.
	"""

	if var_name is None:
	var_name = gp.get_arg_name(None, 1, 2)

	arg_obj.__dict__[var_name] = var_value
	module = sys.modules['__main__']
	setattr(module, var_name, var_value)
	if var_name == "quiet":
	__builtin__.quiet = var_value
	elif var_name == "debug":
	__builtin__.debug = var_value
	elif var_name == "test_mode":
	__builtin__.test_mode = var_value


	def sprint_args(arg_obj,
	indent=0):
	r"""
	sprint_var all of the arguments found in arg_obj and return the result as
	a string.

	Description of arguments:
	arg_obj An argument object such as is returned by
	the argparse parse_args() method.
	indent The number of spaces to indent each line
	of output.
	"""

	loc_col1_width = gp.col1_width + indent

	buffer = ""

	for key in arg_obj.__dict__:
	buffer += gp.sprint_varx(key, getattr(arg_obj, key), 0, indent,
	loc_col1_width)

	return buffer


	def gen_post_validation(exit_function=None,
	signal_handler=None):
	r"""
	Do generic post-validation processing. By "post", we mean that this is to
	be called from a validation function after the caller has done any
	validation desired. If the calling program passes exit_function and
	signal_handler parms, this function will register them. In other words,
	it will make the signal_handler functions get called for SIGINT and
	SIGTERM and will make the exit_function function run prior to the
	termination of the program.

	Description of arguments:
	exit_function A function object pointing to the caller's
	exit function.
	signal_handler A function object pointing to the caller's
	signal_handler function.
	"""

	if exit_function is not None:
	atexit.register(exit_function)
	if signal_handler is not None:
	signal.signal(signal.SIGINT, signal_handler)
	signal.signal(signal.SIGTERM, signal_handler)