bin/process_plug_in_packages.py - openbmc/openbmc-test-automation - Gitiles

 #!/usr/bin/env python

 import sys
 import __builtin__
 import subprocess
 import os
 import argparse

 # python puts the program's directory path in sys.path[0].  In other words,
 # the user ordinarily has no way to override python's choice of a module from
 # its own dir.  We want to have that ability in our environment.  However, we
 # don't want to break any established python modules that depend on this
 # behavior.  So, we'll save the value from sys.path[0], delete it, import our
 # modules and then restore sys.path to its original value.

 save_path_0 = sys.path[0]
 del sys.path[0]

 from gen_print import *
 from gen_valid import *
 from gen_arg import *
 from gen_plug_in import *

 # Restore sys.path[0].
 sys.path.insert(0, save_path_0)
 # I use this variable in calls to print_var.
 hex = 1

 ###############################################################################
 # Create parser object to process command line parameters and args.

 # Create parser object.
 parser = argparse.ArgumentParser(
     usage='%(prog)s [OPTIONS]',
     description="%(prog)s will process the plug-in packages passed to it." +
                 "  A plug-in package is essentially a directory containing" +
                 " one or more call point programs.  Each of these call point" +
                 " programs must have a prefix of \"cp_\".  When calling" +
                 " %(prog)s, a user must provide a call_point parameter" +
                 " (described below).  For each plug-in package passed," +
                 " %(prog)s will check for the presence of the specified call" +
                 " point program in the plug-in directory.  If it is found," +
                 " %(prog)s will run it.  It is the responsibility of the" +
                 " caller to set any environment variables needed by the call" +
                 " point programs.\n\nAfter each call point program" +
                 " has been run, %(prog)s will print the following values in" +
                 " the following formats for use by the calling program:\n" +
                 "  failed_plug_in_name:               <failed plug-in value," +
                 " if any>\n  shell_rc:                          " +
                 "<shell return code value of last call point program - this" +
                 " will be printed in hexadecimal format.  Also, be aware" +
                 " that if a call point program returns a value it will be" +
                 " shifted left 2 bytes (e.g. rc of 2 will be printed as" +
                 " 0x00000200).  That is because the rightmost byte is" +
                 " reserverd for errors in calling the call point program" +
                 " rather than errors generated by the call point program.>",
     formatter_class=argparse.RawTextHelpFormatter,
     prefix_chars='-+'
     )

 # Create arguments.
 parser.add_argument(
     'plug_in_dir_paths',
     nargs='?',
     default="",
     help=plug_in_dir_paths_help_text + default_string
     )

 parser.add_argument(
     '--call_point',
     default="setup",
     required=True,
     help='The call point program name.  This value must not include the' +
          ' "cp_" prefix.  For each plug-in package passed to this program,' +
          ' the specified call_point program will be called if it exists in' +
          ' the plug-in directory.' + default_string
     )

 parser.add_argument(
     '--shell_rc',
     default="0x00000000",
     help='The user may supply a value other than zero to indicate an' +
          ' acceptable non-zero return code.  For example, if this value' +
          ' equals 0x00000200, it means that for each plug-in call point that' +
          ' runs, a 0x00000200 will not be counted as a failure.  See note' +
          ' above regarding left-shifting of return codes.' + default_string
     )

 parser.add_argument(
     '--stop_on_plug_in_failure',
     default=1,
     type=int,
     choices=[1, 0],
     help='If this parameter is set to 1, this program will stop and return ' +
          'non-zero if the call point program from any plug-in directory ' +
          'fails.  Conversely, if it is set to false, this program will run ' +
          'the call point program from each and every plug-in directory ' +
          'regardless of their return values.  Typical example cases where ' +
          'you\'d want to run all plug-in call points regardless of success ' +
          'or failure would be "cleanup" or "ffdc" call points.'
     )

 parser.add_argument(
     '--stop_on_non_zero_rc',
     default=0,
     type=int,
     choices=[1, 0],
     help='If this parm is set to 1 and a plug-in call point program returns ' +
          'a valid non-zero return code (see "shell_rc" parm above), this' +
          ' program will stop processing and return 0 (success).  Since this' +
          ' constitutes a successful exit, this would normally be used where' +
          ' the caller wishes to stop processing if one of the plug-in' +
          ' directory call point programs returns a special value indicating' +
          ' that some special case has been found.  An example might be in' +
          ' calling some kind of "check_errl" call point program.  Such a' +
          ' call point program might return a 2 (i.e. 0x00000200) to indicate' +
          ' that a given error log entry was found in an "ignore" list and is' +
          ' therefore to be ignored.  That being the case, no other' +
          ' "check_errl" call point program would need to be called.' +
          default_string
     )

 parser.add_argument(
     '--mch_class',
     default="obmc",
     help=mch_class_help_text + default_string
     )

 # The stock_list will be passed to gen_get_options.  We populate it with the
 # names of stock parm options we want.  These stock parms are pre-defined by
 # gen_get_options.
 stock_list = [("test_mode", 0), ("quiet", 1), ("debug", 0)]
 ###############################################################################


 ###############################################################################
 def exit_function(signal_number=0,
                   frame=None):

     r"""
     Execute whenever the program ends normally or with the signals that we
     catch (i.e. TERM, INT).
     """

     dprint_executing()
     dprint_var(signal_number)

     qprint_pgm_footer()

 ###############################################################################


 ###############################################################################
 def signal_handler(signal_number, frame):

     r"""
     Handle signals.  Without a function to catch a SIGTERM or SIGINT, our
     program would terminate immediately with return code 143 and without
     calling our exit_function.
     """

     # Our convention is to set up exit_function with atexit.registr() so
     # there is no need to explicitly call exit_function from here.

     dprint_executing()

     # Calling exit prevents us from returning to the code that was running
     # when we received the signal.
     exit(0)

 ###############################################################################


 ###############################################################################
 def validate_parms():

     r"""
     Validate program parameters, etc.  Return True or False accordingly.
     """

     if not valid_value(call_point):
         return False

     gen_post_validation(exit_function, signal_handler)

     return True

 ###############################################################################


 ###############################################################################
 def run_pgm(plug_in_dir_path,
             call_point,
             caller_shell_rc):

     r"""
     Run the call point program in the given plug_in_dir_path.  Return the
     following:
     rc                              The return code - 0 = PASS, 1 = FAIL.
     shell_rc                        The shell return code returned by
                                     process_plug_in_packages.py.
     failed_plug_in_name             The failed plug in name (if any).

     Description of arguments:
     plug_in_dir_path                The directory path where the call_point
                                     program may be located.
     call_point                      The call point (e.g. "setup").  This
                                     program will look for a program named
                                     "cp_" + call_point in the
                                     plug_in_dir_path.  If no such call point
                                     program is found, this function returns an
                                     rc of 0 (i.e. success).
     caller_shell_rc                 The user may supply a value other than
                                     zero to indicate an acceptable non-zero
                                     return code.  For example, if this value
                                     equals 0x00000200, it means that for each
                                     plug-in call point that runs, a 0x00000200
                                     will not be counted as a failure.  See
                                     note above regarding left-shifting of
                                     return codes.
     """

     rc = 0
     failed_plug_in_name = ""
     shell_rc = 0x00000000

     cp_prefix = "cp_"
     plug_in_pgm_path = plug_in_dir_path + cp_prefix + call_point
     if not os.path.exists(plug_in_pgm_path):
         # No such call point in this plug in dir path.  This is legal so we
         # return 0, etc.
         return rc, shell_rc, failed_plug_in_name

     # Get some stats on the file.
     cmd_buf = "stat -c '%n %s %z' " + plug_in_pgm_path
     dissuing(cmd_buf)
     sub_proc = subprocess.Popen(cmd_buf, shell=True, stdout=subprocess.PIPE,
         stderr=subprocess.STDOUT)
     out_buf, err_buf = sub_proc.communicate()
     shell_rc = sub_proc.returncode
     if shell_rc != 0:
         rc = 1
         print_var(shell_rc, hex)
         failed_plug_in_name = \
             os.path.basename(os.path.normpath(plug_in_dir_path))
         print(out_buf)
         return rc, shell_rc, failed_plug_in_name

     print("------------------------------------------------ Starting plug-in" +
           " ------------------------------------------------")
     print(out_buf)
     cmd_buf = "PATH=" + plug_in_dir_path + ":${PATH} ; " + cp_prefix +\
               call_point
     issuing(cmd_buf)

     sub_proc = subprocess.Popen(cmd_buf, shell=True, stdout=subprocess.PIPE,
         stderr=subprocess.STDOUT)
     out_buf, err_buf = sub_proc.communicate()
     shell_rc = sub_proc.returncode
     if shell_rc != 0 and shell_rc != int(caller_shell_rc, 16):
         rc = 1
         failed_plug_in_name = \
             os.path.basename(os.path.normpath(plug_in_dir_path))

     print(out_buf)
     if rc == 1 and out_buf.find('**ERROR**') == -1:
         # Plug-in output contains no "**ERROR**" text so we'll generate it.
         print_error_report("Plug-in failed.\n")
     print("------------------------------------------------- Ending plug-in" +
           " -------------------------------------------------")

     return rc, shell_rc, failed_plug_in_name

 ###############################################################################


 ###############################################################################
 def main():

     r"""
     This is the "main" function.  The advantage of having this function vs
     just doing this in the true mainline is that you can:
     - Declare local variables
     - Use "return" instead of "exit".
     - Indent 4 chars like you would in any function.
     This makes coding more consistent, i.e. it's easy to move code from here
     into a function and vice versa.
     """

     if not gen_get_options(parser, stock_list):
         return False

     if not validate_parms():
         return False

     qprint_pgm_header()

     # Access program parameter globals.
     global plug_in_dir_paths
     global mch_class
     global shell_rc
     global stop_on_plug_in_failure
     global stop_on_non_zero_rc

     plug_in_packages_list = return_plug_in_packages_list(plug_in_dir_paths,
                                                          mch_class)

     qpvar(plug_in_packages_list)

     qprint("\n")

     caller_shell_rc = shell_rc
     failed_plug_in_name = ""

     ret_code = 0
     for plug_in_dir_path in plug_in_packages_list:
         rc, shell_rc, failed_plug_in_name = \
             run_pgm(plug_in_dir_path, call_point, caller_shell_rc)
         print_var(failed_plug_in_name)
         print_var(shell_rc, hex)
         if rc != 0:
             ret_code = 1
             if stop_on_plug_in_failure:
                 break
         if shell_rc != 0 and stop_on_non_zero_rc:
             qprint_time("Stopping on non-zero shell return code as requested" +
                         " by caller.\n")
             break

     if ret_code == 0:
         return True
     else:
         if not stop_on_plug_in_failure:
             # We print a summary error message to make the failure more
             # obvious.
             print_error_report("At least one plug-in failed.\n")
         return False

 ###############################################################################


 ###############################################################################
 # Main

 if not main():
     exit(1)

 ###############################################################################
	#!/usr/bin/env python

	import sys
	import __builtin__
	import subprocess
	import os
	import argparse

	# python puts the program's directory path in sys.path[0]. In other words,
	# the user ordinarily has no way to override python's choice of a module from
	# its own dir. We want to have that ability in our environment. However, we
	# don't want to break any established python modules that depend on this
	# behavior. So, we'll save the value from sys.path[0], delete it, import our
	# modules and then restore sys.path to its original value.

	save_path_0 = sys.path[0]
	del sys.path[0]

	from gen_print import *
	from gen_valid import *
	from gen_arg import *
	from gen_plug_in import *

	# Restore sys.path[0].
	sys.path.insert(0, save_path_0)
	# I use this variable in calls to print_var.
	hex = 1

	###############################################################################
	# Create parser object to process command line parameters and args.

	# Create parser object.
	parser = argparse.ArgumentParser(
	usage='%(prog)s [OPTIONS]',
	description="%(prog)s will process the plug-in packages passed to it." +
	" A plug-in package is essentially a directory containing" +
	" one or more call point programs. Each of these call point" +
	" programs must have a prefix of \"cp_\". When calling" +
	" %(prog)s, a user must provide a call_point parameter" +
	" (described below). For each plug-in package passed," +
	" %(prog)s will check for the presence of the specified call" +
	" point program in the plug-in directory. If it is found," +
	" %(prog)s will run it. It is the responsibility of the" +
	" caller to set any environment variables needed by the call" +
	" point programs.\n\nAfter each call point program" +
	" has been run, %(prog)s will print the following values in" +
	" the following formats for use by the calling program:\n" +
	" failed_plug_in_name: <failed plug-in value," +
	" if any>\n shell_rc: " +
	"<shell return code value of last call point program - this" +
	" will be printed in hexadecimal format. Also, be aware" +
	" that if a call point program returns a value it will be" +
	" shifted left 2 bytes (e.g. rc of 2 will be printed as" +
	" 0x00000200). That is because the rightmost byte is" +
	" reserverd for errors in calling the call point program" +
	" rather than errors generated by the call point program.>",
	formatter_class=argparse.RawTextHelpFormatter,
	prefix_chars='-+'
	)

	# Create arguments.
	parser.add_argument(
	'plug_in_dir_paths',
	nargs='?',
	default="",
	help=plug_in_dir_paths_help_text + default_string
	)

	parser.add_argument(
	'--call_point',
	default="setup",
	required=True,
	help='The call point program name. This value must not include the' +
	' "cp_" prefix. For each plug-in package passed to this program,' +
	' the specified call_point program will be called if it exists in' +
	' the plug-in directory.' + default_string
	)

	parser.add_argument(
	'--shell_rc',
	default="0x00000000",
	help='The user may supply a value other than zero to indicate an' +
	' acceptable non-zero return code. For example, if this value' +
	' equals 0x00000200, it means that for each plug-in call point that' +
	' runs, a 0x00000200 will not be counted as a failure. See note' +
	' above regarding left-shifting of return codes.' + default_string
	)

	parser.add_argument(
	'--stop_on_plug_in_failure',
	default=1,
	type=int,
	choices=[1, 0],
	help='If this parameter is set to 1, this program will stop and return ' +
	'non-zero if the call point program from any plug-in directory ' +
	'fails. Conversely, if it is set to false, this program will run ' +
	'the call point program from each and every plug-in directory ' +
	'regardless of their return values. Typical example cases where ' +
	'you\'d want to run all plug-in call points regardless of success ' +
	'or failure would be "cleanup" or "ffdc" call points.'
	)

	parser.add_argument(
	'--stop_on_non_zero_rc',
	default=0,
	type=int,
	choices=[1, 0],
	help='If this parm is set to 1 and a plug-in call point program returns ' +
	'a valid non-zero return code (see "shell_rc" parm above), this' +
	' program will stop processing and return 0 (success). Since this' +
	' constitutes a successful exit, this would normally be used where' +
	' the caller wishes to stop processing if one of the plug-in' +
	' directory call point programs returns a special value indicating' +
	' that some special case has been found. An example might be in' +
	' calling some kind of "check_errl" call point program. Such a' +
	' call point program might return a 2 (i.e. 0x00000200) to indicate' +
	' that a given error log entry was found in an "ignore" list and is' +
	' therefore to be ignored. That being the case, no other' +
	' "check_errl" call point program would need to be called.' +
	default_string
	)

	parser.add_argument(
	'--mch_class',
	default="obmc",
	help=mch_class_help_text + default_string
	)

	# The stock_list will be passed to gen_get_options. We populate it with the
	# names of stock parm options we want. These stock parms are pre-defined by
	# gen_get_options.
	stock_list = [("test_mode", 0), ("quiet", 1), ("debug", 0)]
	###############################################################################


	###############################################################################
	def exit_function(signal_number=0,
	frame=None):

	r"""
	Execute whenever the program ends normally or with the signals that we
	catch (i.e. TERM, INT).
	"""

	dprint_executing()
	dprint_var(signal_number)

	qprint_pgm_footer()

	###############################################################################


	###############################################################################
	def signal_handler(signal_number, frame):

	r"""
	Handle signals. Without a function to catch a SIGTERM or SIGINT, our
	program would terminate immediately with return code 143 and without
	calling our exit_function.
	"""

	# Our convention is to set up exit_function with atexit.registr() so
	# there is no need to explicitly call exit_function from here.

	dprint_executing()

	# Calling exit prevents us from returning to the code that was running
	# when we received the signal.
	exit(0)

	###############################################################################


	###############################################################################
	def validate_parms():

	r"""
	Validate program parameters, etc. Return True or False accordingly.
	"""

	if not valid_value(call_point):
	return False

	gen_post_validation(exit_function, signal_handler)

	return True

	###############################################################################


	###############################################################################
	def run_pgm(plug_in_dir_path,
	call_point,
	caller_shell_rc):

	r"""
	Run the call point program in the given plug_in_dir_path. Return the
	following:
	rc The return code - 0 = PASS, 1 = FAIL.
	shell_rc The shell return code returned by
	process_plug_in_packages.py.
	failed_plug_in_name The failed plug in name (if any).

	Description of arguments:
	plug_in_dir_path The directory path where the call_point
	program may be located.
	call_point The call point (e.g. "setup"). This
	program will look for a program named
	"cp_" + call_point in the
	plug_in_dir_path. If no such call point
	program is found, this function returns an
	rc of 0 (i.e. success).
	caller_shell_rc The user may supply a value other than
	zero to indicate an acceptable non-zero
	return code. For example, if this value
	equals 0x00000200, it means that for each
	plug-in call point that runs, a 0x00000200
	will not be counted as a failure. See
	note above regarding left-shifting of
	return codes.
	"""

	rc = 0
	failed_plug_in_name = ""
	shell_rc = 0x00000000

	cp_prefix = "cp_"
	plug_in_pgm_path = plug_in_dir_path + cp_prefix + call_point
	if not os.path.exists(plug_in_pgm_path):
	# No such call point in this plug in dir path. This is legal so we
	# return 0, etc.
	return rc, shell_rc, failed_plug_in_name

	# Get some stats on the file.
	cmd_buf = "stat -c '%n %s %z' " + plug_in_pgm_path
	dissuing(cmd_buf)
	sub_proc = subprocess.Popen(cmd_buf, shell=True, stdout=subprocess.PIPE,
	stderr=subprocess.STDOUT)
	out_buf, err_buf = sub_proc.communicate()
	shell_rc = sub_proc.returncode
	if shell_rc != 0:
	rc = 1
	print_var(shell_rc, hex)
	failed_plug_in_name = \
	os.path.basename(os.path.normpath(plug_in_dir_path))
	print(out_buf)
	return rc, shell_rc, failed_plug_in_name

	print("------------------------------------------------ Starting plug-in" +
	" ------------------------------------------------")
	print(out_buf)
	cmd_buf = "PATH=" + plug_in_dir_path + ":${PATH} ; " + cp_prefix +\
	call_point
	issuing(cmd_buf)

	sub_proc = subprocess.Popen(cmd_buf, shell=True, stdout=subprocess.PIPE,
	stderr=subprocess.STDOUT)
	out_buf, err_buf = sub_proc.communicate()
	shell_rc = sub_proc.returncode
	if shell_rc != 0 and shell_rc != int(caller_shell_rc, 16):
	rc = 1
	failed_plug_in_name = \
	os.path.basename(os.path.normpath(plug_in_dir_path))

	print(out_buf)
	if rc == 1 and out_buf.find('ERROR') == -1:
	# Plug-in output contains no "ERROR" text so we'll generate it.
	print_error_report("Plug-in failed.\n")
	print("------------------------------------------------- Ending plug-in" +
	" -------------------------------------------------")

	return rc, shell_rc, failed_plug_in_name

	###############################################################################


	###############################################################################
	def main():

	r"""
	This is the "main" function. The advantage of having this function vs
	just doing this in the true mainline is that you can:
	- Declare local variables
	- Use "return" instead of "exit".
	- Indent 4 chars like you would in any function.
	This makes coding more consistent, i.e. it's easy to move code from here
	into a function and vice versa.
	"""

	if not gen_get_options(parser, stock_list):
	return False

	if not validate_parms():
	return False

	qprint_pgm_header()

	# Access program parameter globals.
	global plug_in_dir_paths
	global mch_class
	global shell_rc
	global stop_on_plug_in_failure
	global stop_on_non_zero_rc

	plug_in_packages_list = return_plug_in_packages_list(plug_in_dir_paths,
	mch_class)

	qpvar(plug_in_packages_list)

	qprint("\n")

	caller_shell_rc = shell_rc
	failed_plug_in_name = ""

	ret_code = 0
	for plug_in_dir_path in plug_in_packages_list:
	rc, shell_rc, failed_plug_in_name = \
	run_pgm(plug_in_dir_path, call_point, caller_shell_rc)
	print_var(failed_plug_in_name)
	print_var(shell_rc, hex)
	if rc != 0:
	ret_code = 1
	if stop_on_plug_in_failure:
	break
	if shell_rc != 0 and stop_on_non_zero_rc:
	qprint_time("Stopping on non-zero shell return code as requested" +
	" by caller.\n")
	break

	if ret_code == 0:
	return True
	else:
	if not stop_on_plug_in_failure:
	# We print a summary error message to make the failure more
	# obvious.
	print_error_report("At least one plug-in failed.\n")
	return False

	###############################################################################


	###############################################################################
	# Main

	if not main():
	exit(1)

	###############################################################################