syslib/utils_keywords.py - openbmc/openbmc-test-automation - Gitiles

 #!/usr/bin/env python

 r"""
 This module contains keyword functions to supplement robot's built in
 functions and use in test where generic robot keywords don't support.
 """

 try:
     from robot.libraries.BuiltIn import BuiltIn
     from robot.libraries import DateTime
 except ImportError:
     pass
 import time
 import os
 import difflib


 ##########################################################################
 def json_inv_file_diff_check(file1_path,
                              file2_path,
                              diff_file_path,
                              skip_string):
     r"""
     Compare the contents of two files which contain inventory data in
     JSON format.  The comparison is similar to the unix 'diff' command but
     the output lists the hardware subsystem (category) where differences
     are found, and some differences are selectively ignored.  The items
     ignored are defined by the skip_string.

     Description of arguments:
     file1_path       File containing JSON formatted data.
     file2_path       File to compare to file1 to.
     diff_file_path   File which will contain the resulting difference report.
     skip_string      String which defines what inventory items
                      to ignore if there are differences in inventory
                      files -- some differences are expected or
                      immaterial.  For example, assigned processor
                      speed routinely varies depending upon the
                      needs of OCC/tmgt/ondemand governor.
                      Back-to-back inventory runs may show
                      processor speed differences even if nothing
                      else was run between them.
                      Each item in this string is of the form
                      category:leafname where category is a JSON
                      hardware category such as "processor", "memory",
                      "disk", "display", "network", etc.,
                      and leafname is a leaf node (atribute name)
                      within that category.
                      For example: "processor:size", or
                      "processor:size,network:speed,display:id".

     Sample difference report:
     Difference at line 102  (in section "memory":)
      102 -   "slot": "UOPWR.BAR.1315ACA-DIMM0",
      102 +   "slot": "0"
     Difference at line 126  (in section "processor":)
      126 -   "size": 2151000000,    +++ NOTE! This is an ignore item
      126 +   "size": 2201000000,    +++ NOTE! This is an ignore item

     Returns:
     0 if both files contain the same information or they differ only in
       items specified as those to ignore.
     2 if FILES_DO_NOT_MATCH.
     3 if INPUT_FILE_DOES_NOT_EXIST.
     4 if IO_EXCEPTION_READING_FILE.
     5 if IO_EXCEPTION_WRITING_FILE.
     """

     FILES_MATCH = 0
     FILES_DO_NOT_MATCH = 2
     INPUT_FILE_DOES_NOT_EXIST = 3
     IO_EXCEPTION_READING_FILE = 4
     IO_EXCEPTION_WRITING_FILE = 5

     # Hardware categories which are reported in the JSON inventory files.
     hardware_categories = ['\"processor\":', '\"memory\":', '\"disk\":',
                            '\"I/O\":', '\"display\":', '\"generic\":',
                            '\"network\":', '\"communication\":',
                            '\"printer\":', '\"input\":', '\"multimedia\":',
                            '\"tape\":']

     # The minimum size in bytes a JSON file must be.
     min_json_byte_size = 16

     now = time.strftime("At %Y-%m-%d %H:%M:%S")

     if (not os.path.exists(file1_path) or (not os.path.exists(file2_path))):
         return INPUT_FILE_DOES_NOT_EXIST
     try:
         with open(file1_path, 'r') as file:
             initial = file.readlines()
         with open(file2_path, 'r') as file:
             final = file.readlines()
     except IOError:
         file.close()
         return IO_EXCEPTION_READING_FILE
     except ValueError:
         file.close()
         return INPUT_FILE_MALFORMED
     else:
         file.close()

     # Must have more than a trivial number of bytes.
     if len(initial) <= min_json_byte_size:
         return INPUT_FILE_MALFORMED

     if (initial == final):
         try:
             file = open(diff_file_path, 'w')
         except IOError:
             file.close()
         line_to_print = "Specified skip (ignore) string = " + \
             skip_string + "\n\n"
         file.write(line_to_print)
         line_to_print = now + " found no difference between file " + \
             file1_path + " and " + \
             file2_path + "\n"
         file.write(line_to_print)
         file.close()
         return FILES_MATCH

     # Find the differences and write difference report to diff_file_path file.
     try:
         file = open(diff_file_path, 'w')
     except IOError:
         file.close()
         return IO_EXCEPTION_WRITING_FILE

     line_to_print = "Specified skip (ignore) string = " + skip_string + "\n\n"
     file.write(line_to_print)
     line_to_print = now + " compared files " + \
         file1_path + " and " + \
         file2_path + "\n"
     file.write(line_to_print)

     diff = difflib.ndiff(initial, final)
     # The diff array contains all lines that match in the
     # initial and final arrays, and also all lines that differ.
     # The first two characters of each line
     # are prefixed with two letters, defined as:
     # '- ' This line is unique to initial
     # '+ ' This line is line unique to final
     # '  ' This line is common to both, and
     # '? ' This line indicates approximate differences.
     # For example,  comparing two three-line files:
     #  This line is in both initial and final.
     #  This line is too but the next line is different in each file.
     # -                     "size": 2101000000,
     # ?                              - ^
     # +                     "size": 2002000000,
     # ?                               ^^

     print_header_flag = False
     category = ""
     row_num = 1
     item_we_cannot_ignore = False

     for my_line in diff:
         diff_item = my_line.strip('\n')
         # If it's a Category, such as processor or memory,
         # save it.  We will print it out later.
         # Most lines do not explicitly contain a category.  As such the
         # category for that line is found in a previous line, which
         # will be the category we last found.
         for hdw_cat in hardware_categories:
             if (hdw_cat in diff_item):
                 # If we don't have a match we will reuse
                 # the prvious category.
                 category = hdw_cat
         # Lines beginning with minus or plus or q-mark are
         # true difference items.
         # We want to look at those in more detail.
         if diff_item.startswith('? '):
             # we can ignore these
             continue
         if (diff_item.startswith('- ') or diff_item.startswith('+ ')):
             # If we have not printed the header line for this
             # difference, print it now.
             if print_header_flag is False:
                 line_to_print = "Difference at line " + \
                  str(row_num) + "  (in section " + \
                  category + ")\n"
                 file.write(line_to_print)
             # If this is in the ignore string, we'll print
             # it but also add text that it is an ignore item.
             skipitem = False
             # If a skip_string is specified, check if category and item are
             # in the skip_string.
             if skip_string:
                 skip_list = skip_string.split(",")
                 for item in skip_list:
                     cat_and_value = item.split(":")
                     ignore_category = cat_and_value[0].lower().strip()
                     ignore_value = cat_and_value[1].lower().strip()
                     if ((ignore_category in category.lower().strip()) and
                        (ignore_value in diff_item.lower().strip())):
                         line_to_print = "  " + \
                             str(row_num) + " " + diff_item + \
                             "    +++ NOTE! This line matches" + \
                             " the inventory ignore list and" + \
                             " can be ignored. +++\n"
                         # Set flag indicating this item is a skip item.
                         skipitem = True
                         break
             if skipitem is False:
                 # Its not a skip item, that is,
                 # this is not on the ignore list.
                 # Print the item and set the item_we_canot_ignore flag
                 # indicating we have an item not on the ignore list.  The
                 # flag will determine the return code we
                 # pass back to the user at the end.
                 item_we_cannot_ignore = True
                 line_to_print = "  " + \
                     str(row_num) + " " + diff_item + "\n"
             file.write(line_to_print)
             print_header_flag = True

         else:
             # Adjust row numbering as a difference is only one line
             # but it takes several lines in the diff file.
             if print_header_flag is True:
                 row_num = row_num + 1
                 print_header_flag = False
             row_num = row_num + 1

     # Make sure we end the file.
     file.write("\n")
     file.close()

     if item_we_cannot_ignore:
         # We have at least one diff_item not on the ignore list.
         return FILES_DO_NOT_MATCH
     else:
         # Any differences were on the ignore list.
         return FILES_MATCH
 ###############################################################################


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


 def run_until_keyword_fails(retry,
                             retry_interval,
                             name,
                             *args):
     r"""
     Execute a robot keyword repeatedly until it either fails or the timeout
     value is exceeded.
     Note: Opposite of robot keyword "Wait Until Keyword Succeeds".

     Description of argument(s):
     retry              Max timeout time in hour(s).
     retry_interval     Time interval in minute(s) for looping.
     name               Robot keyword to execute.
     args               Robot keyword arguments.
     """

     # Convert the retry time in seconds
     retry_seconds = DateTime.convert_time(retry)
     timeout = time.time() + int(retry_seconds)

     # Convert the interval time in seconds
     interval_seconds = DateTime.convert_time(retry_interval)
     interval = int(interval_seconds)

     BuiltIn().log(timeout)
     BuiltIn().log(interval)

     while True:
         status = BuiltIn().run_keyword_and_return_status(name, *args)

         # Return if keywords returns as failure.
         if status is False:
             BuiltIn().log("Failed as expected")
             return False
         # Return if retry timeout as success.
         elif time.time() > timeout > 0:
             BuiltIn().log("Max retry timeout")
             return True
         time.sleep(interval)
         BuiltIn().log(time.time())

     return True
 ###############################################################################


 ###############################################################################
 def htx_error_log_to_list(htx_error_log_output):

     r"""
     Parse htx error log output string and return list of strings in the form
     "<field name>:<field value>".
     The output of this function may be passed to the build_error_dict function.

     Description of argument(s):
     htx_error_log_output        Error entry string containing the stdout
                                 generated by "htxcmdline -geterrlog".

     Example of htx_error_log_output contents:

     ######################## Result Starts Here ###############################
     Currently running ECG/MDT : /usr/lpp/htx/mdt/mdt.whit
     ===========================
     ---------------------------------------------------------------------
     Device id:/dev/nvidia0
     Timestamp:Mar 29 19:41:54 2017
     err=00000027
     sev=1
     Exerciser Name:hxenvidia
     Serial No:Not Available
     Part No:Not Available
     Location:Not Available
     FRU Number:Not Available
     Device:Not Available
     Error Text:cudaEventSynchronize for stopEvent returned err = 0039 from file
                , line 430.
     ---------------------------------------------------------------------
     ---------------------------------------------------------------------
     Device id:/dev/nvidia0
     Timestamp:Mar 29 19:41:54 2017
     err=00000027
     sev=1
     Exerciser Name:hxenvidia
     Serial No:Not Available
     Part No:Not Available
     Location:Not Available
     FRU Number:Not Available
     Device:Not Available
     Error Text:Hardware Exerciser stopped on error
     ---------------------------------------------------------------------
     ######################### Result Ends Here ################################

     Example output:
     Returns the lists of error string per entry
     ['Device id:/dev/nvidia0',
      'Timestamp:Mar 29 19:41:54 2017',
      'err=00000027',
      'sev=1',
      'Exerciser Name:hxenvidia',
      'Serial No:Not Available',
      'Part No:Not Available',
      'Location:Not Available',
      'FRU Number:Not Available',
      'Device:Not Available',
      'Error Text:cudaEventSynchronize for stopEvent returned err = 0039
                  from file , line 430.']
     """

     # List which will hold all the list of entries.
     error_list = []

     temp_error_list = []
     parse_walk = False

     for line in htx_error_log_output.splitlines():
         # Skip lines starting with "#"
         if line.startswith("#"):
             continue

         # Mark line starting with "-" and set parse flag.
         if line.startswith("-") and parse_walk is False:
             parse_walk = True
             continue
         # Mark line starting with "-" and reset parse flag.
         # Set temp error list to EMPTY.
         elif line.startswith("-"):
             error_list.append(temp_error_list)
             parse_walk = False
             temp_error_list = []
         # Add entry to list if line is not emtpy
         elif parse_walk:
             temp_error_list.append(str(line))

     return error_list
 ###############################################################################


 ###############################################################################
 def build_error_dict(htx_error_log_output):

     r"""
     Builds error list into a list of dictionary entries.

     Description of argument(s):
     error_list        Error list entries.

     Example output dictionary:
     {
       0:
         {
           'sev': '1',
           'err': '00000027',
           'Timestamp': 'Mar 29 19:41:54 2017',
           'Part No': 'Not Available',
           'Serial No': 'Not Available',
           'Device': 'Not Available',
           'FRU Number': 'Not Available',
           'Location': 'Not Available',
           'Device id': '/dev/nvidia0',
           'Error Text': 'cudaEventSynchronize for stopEvent returned err = 0039
                          from file , line 430.',
           'Exerciser Name': 'hxenvidia'
         },
       1:
         {
           'sev': '1',
           'err': '00000027',
           'Timestamp': 'Mar 29 19:41:54 2017',
           'Part No': 'Not Available',
           'Serial No': 'Not Available',
           'Device': 'Not Available',
           'FRU Number': 'Not Available',
           'Location': 'Not Available',
           'Device id': '/dev/nvidia0',
           'Error Text': 'Hardware Exerciser stopped on error',
           'Exerciser Name': 'hxenvidia'
         }
     },

     """

     # List which will hold all the list of entries.
     error_list = []
     error_list = htx_error_log_to_list(htx_error_log_output)

     # dictionary which holds the error dictionry entry.
     error_dict = {}

     temp_error_dict = {}
     error_index = 0

     # Loop through the error list.
     for entry_list in error_list:
         # Loop through the first error list entry.
         for entry in entry_list:
             # Split string into list for key value update.
             # Example: 'Device id:/dev/nvidia0'
             # Example: 'err=00000027'
             parm_split = re.split("[:=]", entry)
             # Populate temp dictionary with key value pair data.
             temp_error_dict[str(parm_split[0])] = parm_split[1]

         # Update the master dictionary per entry index.
         error_dict[error_index] = temp_error_dict
         # Reset temp dict to EMPTY and increment index count.
         temp_error_dict = {}
         error_index += 1

     return error_dict

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

	r"""
	This module contains keyword functions to supplement robot's built in
	functions and use in test where generic robot keywords don't support.
	"""

	try:
	from robot.libraries.BuiltIn import BuiltIn
	from robot.libraries import DateTime
	except ImportError:
	pass
	import time
	import os
	import difflib


	##########################################################################
	def json_inv_file_diff_check(file1_path,
	file2_path,
	diff_file_path,
	skip_string):
	r"""
	Compare the contents of two files which contain inventory data in
	JSON format. The comparison is similar to the unix 'diff' command but
	the output lists the hardware subsystem (category) where differences
	are found, and some differences are selectively ignored. The items
	ignored are defined by the skip_string.

	Description of arguments:
	file1_path File containing JSON formatted data.
	file2_path File to compare to file1 to.
	diff_file_path File which will contain the resulting difference report.
	skip_string String which defines what inventory items
	to ignore if there are differences in inventory
	files -- some differences are expected or
	immaterial. For example, assigned processor
	speed routinely varies depending upon the
	needs of OCC/tmgt/ondemand governor.
	Back-to-back inventory runs may show
	processor speed differences even if nothing
	else was run between them.
	Each item in this string is of the form
	category:leafname where category is a JSON
	hardware category such as "processor", "memory",
	"disk", "display", "network", etc.,
	and leafname is a leaf node (atribute name)
	within that category.
	For example: "processor:size", or
	"processor:size,network:speed,display:id".

	Sample difference report:
	Difference at line 102 (in section "memory":)
	102 - "slot": "UOPWR.BAR.1315ACA-DIMM0",
	102 + "slot": "0"
	Difference at line 126 (in section "processor":)
	126 - "size": 2151000000, +++ NOTE! This is an ignore item
	126 + "size": 2201000000, +++ NOTE! This is an ignore item

	Returns:
	0 if both files contain the same information or they differ only in
	items specified as those to ignore.
	2 if FILES_DO_NOT_MATCH.
	3 if INPUT_FILE_DOES_NOT_EXIST.
	4 if IO_EXCEPTION_READING_FILE.
	5 if IO_EXCEPTION_WRITING_FILE.
	"""

	FILES_MATCH = 0
	FILES_DO_NOT_MATCH = 2
	INPUT_FILE_DOES_NOT_EXIST = 3
	IO_EXCEPTION_READING_FILE = 4
	IO_EXCEPTION_WRITING_FILE = 5

	# Hardware categories which are reported in the JSON inventory files.
	hardware_categories = ['\"processor\":', '\"memory\":', '\"disk\":',
	'\"I/O\":', '\"display\":', '\"generic\":',
	'\"network\":', '\"communication\":',
	'\"printer\":', '\"input\":', '\"multimedia\":',
	'\"tape\":']

	# The minimum size in bytes a JSON file must be.
	min_json_byte_size = 16

	now = time.strftime("At %Y-%m-%d %H:%M:%S")

	if (not os.path.exists(file1_path) or (not os.path.exists(file2_path))):
	return INPUT_FILE_DOES_NOT_EXIST
	try:
	with open(file1_path, 'r') as file:
	initial = file.readlines()
	with open(file2_path, 'r') as file:
	final = file.readlines()
	except IOError:
	file.close()
	return IO_EXCEPTION_READING_FILE
	except ValueError:
	file.close()
	return INPUT_FILE_MALFORMED
	else:
	file.close()

	# Must have more than a trivial number of bytes.
	if len(initial) <= min_json_byte_size:
	return INPUT_FILE_MALFORMED

	if (initial == final):
	try:
	file = open(diff_file_path, 'w')
	except IOError:
	file.close()
	line_to_print = "Specified skip (ignore) string = " + \
	skip_string + "\n\n"
	file.write(line_to_print)
	line_to_print = now + " found no difference between file " + \
	file1_path + " and " + \
	file2_path + "\n"
	file.write(line_to_print)
	file.close()
	return FILES_MATCH

	# Find the differences and write difference report to diff_file_path file.
	try:
	file = open(diff_file_path, 'w')
	except IOError:
	file.close()
	return IO_EXCEPTION_WRITING_FILE

	line_to_print = "Specified skip (ignore) string = " + skip_string + "\n\n"
	file.write(line_to_print)
	line_to_print = now + " compared files " + \
	file1_path + " and " + \
	file2_path + "\n"
	file.write(line_to_print)

	diff = difflib.ndiff(initial, final)
	# The diff array contains all lines that match in the
	# initial and final arrays, and also all lines that differ.
	# The first two characters of each line
	# are prefixed with two letters, defined as:
	# '- ' This line is unique to initial
	# '+ ' This line is line unique to final
	# ' ' This line is common to both, and
	# '? ' This line indicates approximate differences.
	# For example, comparing two three-line files:
	# This line is in both initial and final.
	# This line is too but the next line is different in each file.
	# - "size": 2101000000,
	# ? - ^
	# + "size": 2002000000,
	# ? ^^

	print_header_flag = False
	category = ""
	row_num = 1
	item_we_cannot_ignore = False

	for my_line in diff:
	diff_item = my_line.strip('\n')
	# If it's a Category, such as processor or memory,
	# save it. We will print it out later.
	# Most lines do not explicitly contain a category. As such the
	# category for that line is found in a previous line, which
	# will be the category we last found.
	for hdw_cat in hardware_categories:
	if (hdw_cat in diff_item):
	# If we don't have a match we will reuse
	# the prvious category.
	category = hdw_cat
	# Lines beginning with minus or plus or q-mark are
	# true difference items.
	# We want to look at those in more detail.
	if diff_item.startswith('? '):
	# we can ignore these
	continue
	if (diff_item.startswith('- ') or diff_item.startswith('+ ')):
	# If we have not printed the header line for this
	# difference, print it now.
	if print_header_flag is False:
	line_to_print = "Difference at line " + \
	str(row_num) + " (in section " + \
	category + ")\n"
	file.write(line_to_print)
	# If this is in the ignore string, we'll print
	# it but also add text that it is an ignore item.
	skipitem = False
	# If a skip_string is specified, check if category and item are
	# in the skip_string.
	if skip_string:
	skip_list = skip_string.split(",")
	for item in skip_list:
	cat_and_value = item.split(":")
	ignore_category = cat_and_value[0].lower().strip()
	ignore_value = cat_and_value[1].lower().strip()
	if ((ignore_category in category.lower().strip()) and
	(ignore_value in diff_item.lower().strip())):
	line_to_print = " " + \
	str(row_num) + " " + diff_item + \
	" +++ NOTE! This line matches" + \
	" the inventory ignore list and" + \
	" can be ignored. +++\n"
	# Set flag indicating this item is a skip item.
	skipitem = True
	break
	if skipitem is False:
	# Its not a skip item, that is,
	# this is not on the ignore list.
	# Print the item and set the item_we_canot_ignore flag
	# indicating we have an item not on the ignore list. The
	# flag will determine the return code we
	# pass back to the user at the end.
	item_we_cannot_ignore = True
	line_to_print = " " + \
	str(row_num) + " " + diff_item + "\n"
	file.write(line_to_print)
	print_header_flag = True

	else:
	# Adjust row numbering as a difference is only one line
	# but it takes several lines in the diff file.
	if print_header_flag is True:
	row_num = row_num + 1
	print_header_flag = False
	row_num = row_num + 1

	# Make sure we end the file.
	file.write("\n")
	file.close()

	if item_we_cannot_ignore:
	# We have at least one diff_item not on the ignore list.
	return FILES_DO_NOT_MATCH
	else:
	# Any differences were on the ignore list.
	return FILES_MATCH
	###############################################################################


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


	def run_until_keyword_fails(retry,
	retry_interval,
	name,
	*args):
	r"""
	Execute a robot keyword repeatedly until it either fails or the timeout
	value is exceeded.
	Note: Opposite of robot keyword "Wait Until Keyword Succeeds".

	Description of argument(s):
	retry Max timeout time in hour(s).
	retry_interval Time interval in minute(s) for looping.
	name Robot keyword to execute.
	args Robot keyword arguments.
	"""

	# Convert the retry time in seconds
	retry_seconds = DateTime.convert_time(retry)
	timeout = time.time() + int(retry_seconds)

	# Convert the interval time in seconds
	interval_seconds = DateTime.convert_time(retry_interval)
	interval = int(interval_seconds)

	BuiltIn().log(timeout)
	BuiltIn().log(interval)

	while True:
	status = BuiltIn().run_keyword_and_return_status(name, *args)

	# Return if keywords returns as failure.
	if status is False:
	BuiltIn().log("Failed as expected")
	return False
	# Return if retry timeout as success.
	elif time.time() > timeout > 0:
	BuiltIn().log("Max retry timeout")
	return True
	time.sleep(interval)
	BuiltIn().log(time.time())

	return True
	###############################################################################


	###############################################################################
	def htx_error_log_to_list(htx_error_log_output):

	r"""
	Parse htx error log output string and return list of strings in the form
	"<field name>:<field value>".
	The output of this function may be passed to the build_error_dict function.

	Description of argument(s):
	htx_error_log_output Error entry string containing the stdout
	generated by "htxcmdline -geterrlog".

	Example of htx_error_log_output contents:

	######################## Result Starts Here ###############################
	Currently running ECG/MDT : /usr/lpp/htx/mdt/mdt.whit
	===========================
	---------------------------------------------------------------------
	Device id:/dev/nvidia0
	Timestamp:Mar 29 19:41:54 2017
	err=00000027
	sev=1
	Exerciser Name:hxenvidia
	Serial No:Not Available
	Part No:Not Available
	Location:Not Available
	FRU Number:Not Available
	Device:Not Available
	Error Text:cudaEventSynchronize for stopEvent returned err = 0039 from file
	, line 430.
	---------------------------------------------------------------------
	---------------------------------------------------------------------
	Device id:/dev/nvidia0
	Timestamp:Mar 29 19:41:54 2017
	err=00000027
	sev=1
	Exerciser Name:hxenvidia
	Serial No:Not Available
	Part No:Not Available
	Location:Not Available
	FRU Number:Not Available
	Device:Not Available
	Error Text:Hardware Exerciser stopped on error
	---------------------------------------------------------------------
	######################### Result Ends Here ################################

	Example output:
	Returns the lists of error string per entry
	['Device id:/dev/nvidia0',
	'Timestamp:Mar 29 19:41:54 2017',
	'err=00000027',
	'sev=1',
	'Exerciser Name:hxenvidia',
	'Serial No:Not Available',
	'Part No:Not Available',
	'Location:Not Available',
	'FRU Number:Not Available',
	'Device:Not Available',
	'Error Text:cudaEventSynchronize for stopEvent returned err = 0039
	from file , line 430.']
	"""

	# List which will hold all the list of entries.
	error_list = []

	temp_error_list = []
	parse_walk = False

	for line in htx_error_log_output.splitlines():
	# Skip lines starting with "#"
	if line.startswith("#"):
	continue

	# Mark line starting with "-" and set parse flag.
	if line.startswith("-") and parse_walk is False:
	parse_walk = True
	continue
	# Mark line starting with "-" and reset parse flag.
	# Set temp error list to EMPTY.
	elif line.startswith("-"):
	error_list.append(temp_error_list)
	parse_walk = False
	temp_error_list = []
	# Add entry to list if line is not emtpy
	elif parse_walk:
	temp_error_list.append(str(line))

	return error_list
	###############################################################################


	###############################################################################
	def build_error_dict(htx_error_log_output):

	r"""
	Builds error list into a list of dictionary entries.

	Description of argument(s):
	error_list Error list entries.

	Example output dictionary:
	{
	0:
	{
	'sev': '1',
	'err': '00000027',
	'Timestamp': 'Mar 29 19:41:54 2017',
	'Part No': 'Not Available',
	'Serial No': 'Not Available',
	'Device': 'Not Available',
	'FRU Number': 'Not Available',
	'Location': 'Not Available',
	'Device id': '/dev/nvidia0',
	'Error Text': 'cudaEventSynchronize for stopEvent returned err = 0039
	from file , line 430.',
	'Exerciser Name': 'hxenvidia'
	},
	1:
	{
	'sev': '1',
	'err': '00000027',
	'Timestamp': 'Mar 29 19:41:54 2017',
	'Part No': 'Not Available',
	'Serial No': 'Not Available',
	'Device': 'Not Available',
	'FRU Number': 'Not Available',
	'Location': 'Not Available',
	'Device id': '/dev/nvidia0',
	'Error Text': 'Hardware Exerciser stopped on error',
	'Exerciser Name': 'hxenvidia'
	}
	},

	"""

	# List which will hold all the list of entries.
	error_list = []
	error_list = htx_error_log_to_list(htx_error_log_output)

	# dictionary which holds the error dictionry entry.
	error_dict = {}

	temp_error_dict = {}
	error_index = 0

	# Loop through the error list.
	for entry_list in error_list:
	# Loop through the first error list entry.
	for entry in entry_list:
	# Split string into list for key value update.
	# Example: 'Device id:/dev/nvidia0'
	# Example: 'err=00000027'
	parm_split = re.split("[:=]", entry)
	# Populate temp dictionary with key value pair data.
	temp_error_dict[str(parm_split[0])] = parm_split[1]

	# Update the master dictionary per entry index.
	error_dict[error_index] = temp_error_dict
	# Reset temp dict to EMPTY and increment index count.
	temp_error_dict = {}
	error_index += 1

	return error_dict

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