1 files changed, 328 insertions, 328 deletions

diff --git a/ArmPlatformPkg/Scripts/Ds5/profile.py b/ArmPlatformPkg/Scripts/Ds5/profile.py
index f87dee2469..979c6ea2bd 100644
--- a/ArmPlatformPkg/Scripts/Ds5/profile.py
+++ b/ArmPlatformPkg/Scripts/Ds5/profile.py
@@ -1,328 +1,328 @@
-#!/usr/bin/python
-
-#
-#  Copyright (c) 2014, ARM Limited. All rights reserved.
-#
-#  SPDX-License-Identifier: BSD-2-Clause-Patent
-#
-
-import getopt
-import operator
-import os
-import pickle
-import sys
-from sys import argv
-from cStringIO import StringIO
-
-modules = {}
-functions = {}
-functions_addr = {}
-
-def usage():
-	print "-t,--trace: Location of the Trace file"
-	print "-s,--symbols: Location of the symbols and modules"
-
-def get_address_from_string(address):
-	return int(address.strip("S:").strip("N:").strip("EL2:").strip("EL1:"), 16)
-
-def get_module_from_addr(modules, addr):
-	for key,value in modules.items():
-		if (value['start'] <= addr) and (addr <= value['end']):
-			return key
-	return None
-
-def add_cycles_to_function(functions, func_name, addr, cycles):
-	if func_name != "<Unknown>":
-		# Check if we are still in the previous function
-		if add_cycles_to_function.prev_func_name == func_name:
-			add_cycles_to_function.prev_entry['cycles'] += cycles
-			return (add_cycles_to_function.prev_func_name, add_cycles_to_function.prev_module_name)
-
-		if func_name in functions.keys():
-			for module_name, module_value in functions[func_name].iteritems():
-				if (module_value['start'] <= addr) and (addr < module_value['end']):
-					module_value['cycles'] += cycles
-
-					add_cycles_to_function.prev_func_name   = func_name
-					add_cycles_to_function.prev_module_name = module_name
-					add_cycles_to_function.prev_entry       = module_value
-					return (func_name, module_name)
-				elif (module_value['end'] == 0):
-					module_value['cycles'] += cycles
-
-					add_cycles_to_function.prev_func_name   = func_name
-					add_cycles_to_function.prev_module_name = module_name
-					add_cycles_to_function.prev_entry       = module_value
-					return (func_name, module_name)
-
-		# Workaround to fix the 'info func' limitation that does not expose the 'static' function
-		module_name = get_module_from_addr(modules, addr)
-		functions[func_name] = {}
-		functions[func_name][module_name] = {}
-		functions[func_name][module_name]['start']  = 0
-		functions[func_name][module_name]['end']    = 0
-		functions[func_name][module_name]['cycles'] = cycles
-		functions[func_name][module_name]['count']  = 0
-
-		add_cycles_to_function.prev_func_name   = func_name
-		add_cycles_to_function.prev_module_name = module_name
-		add_cycles_to_function.prev_entry       = functions[func_name][module_name]
-		return (func_name, module_name)
-	else:
-		# Check if we are still in the previous function
-		if (add_cycles_to_function.prev_entry is not None) and (add_cycles_to_function.prev_entry['start'] <= addr) and (addr < add_cycles_to_function.prev_entry['end']):
-			add_cycles_to_function.prev_entry['cycles'] += cycles
-			return (add_cycles_to_function.prev_func_name, add_cycles_to_function.prev_module_name)
-
-		# Generate the key for the given address
-		key = addr & ~0x0FFF
-
-		if key not in functions_addr.keys():
-			if 'Unknown' not in functions.keys():
-				functions['Unknown'] = {}
-			if 'Unknown' not in functions['Unknown'].keys():
-				functions['Unknown']['Unknown'] = {}
-				functions['Unknown']['Unknown']['cycles'] = 0
-				functions['Unknown']['Unknown']['count'] = 0
-			functions['Unknown']['Unknown']['cycles'] += cycles
-
-			add_cycles_to_function.prev_func_name = None
-			return None
-
-		for func_key, module in functions_addr[key].iteritems():
-			for module_key, module_value in module.iteritems():
-				if (module_value['start'] <= addr) and (addr < module_value['end']):
-					module_value['cycles'] += cycles
-
-					# In case o <Unknown> we prefer to fallback on the direct search
-					add_cycles_to_function.prev_func_name   = func_key
-					add_cycles_to_function.prev_module_name = module_key
-					add_cycles_to_function.prev_entry       = module_value
-					return (func_key, module_key)
-
-	print "Warning: Function %s @ 0x%x not found" % (func_name, addr)
-
-	add_cycles_to_function.prev_func_name = None
-	return None
-
-# Static variables for the previous function
-add_cycles_to_function.prev_func_name = None
-add_cycles_to_function.prev_entry     = None
-
-def trace_read():
-	global trace_process
-	line = trace.readline()
-	trace_process += len(line)
-	return line
-
-#
-# Parse arguments
-#
-trace_name = None
-symbols_file = None
-
-opts,args = getopt.getopt(sys.argv[1:], "ht:vs:v", ["help","trace=","symbols="])
-if (opts is None) or (not opts):
-	usage()
-	sys.exit()
-
-for o,a in opts:
-    if o in ("-h","--help"):
-        usage()
-        sys.exit()
-    elif o in ("-t","--trace"):
-        trace_name = a
-    elif o in ("-s","--symbols"):
-        symbols_file = a
-    else:
-        assert False, "Unhandled option (%s)" % o
-
-#
-# We try first to see if we run the script from DS-5
-#
-try:
-	from arm_ds.debugger_v1 import Debugger
-	from arm_ds.debugger_v1 import DebugException
-
-	# Debugger object for accessing the debugger
-	debugger = Debugger()
-
-	# Initialisation commands
-	ec = debugger.getExecutionContext(0)
-	ec.getExecutionService().stop()
-	ec.getExecutionService().waitForStop()
-	# in case the execution context reference is out of date
-	ec = debugger.getExecutionContext(0)
-
-	#
-	# Get the module name and their memory range
-	#
-	info_file = ec.executeDSCommand("info file")
-	info_file_str = StringIO(info_file)
-
-	line = info_file_str.readline().strip('\n')
-	while line != '':
-		if ("Symbols from" in line):
-			# Get the module name from the line 'Symbols from "/home/...."'
-			module_name = line.split("\"")[1].split("/")[-1]
-			modules[module_name] = {}
-
-			# Look for the text section
-			line = info_file_str.readline().strip('\n')
-			while (line != '') and ("Symbols from" not in line):
-				if ("ER_RO" in line):
-					modules[module_name]['start'] = get_address_from_string(line.split()[0])
-					modules[module_name]['end']   = get_address_from_string(line.split()[2])
-					line = info_file_str.readline().strip('\n')
-					break;
-				if (".text" in line):
-					modules[module_name]['start'] = get_address_from_string(line.split()[0])
-					modules[module_name]['end']   = get_address_from_string(line.split()[2])
-					line = info_file_str.readline().strip('\n')
-					break;
-				line = info_file_str.readline().strip('\n')
-		line = info_file_str.readline().strip('\n')
-
-	#
-	# Get the function name and their memory range
-	#
-	info_func = ec.executeDSCommand("info func")
-	info_func_str = StringIO(info_func)
-
-	# Skip the first line 'Low-level symbols ...'
-	line = info_func_str.readline().strip('\n')
-	func_prev = None
-	while line != '':
-		# We ignore all the functions after 'Functions in'
-		if ("Functions in " in line):
-			line = info_func_str.readline().strip('\n')
-			while line != '':
-				line = info_func_str.readline().strip('\n')
-			line = info_func_str.readline().strip('\n')
-			continue
-
-		if ("Low-level symbols" in line):
-			# We need to fixup the last function of the module
-			if func_prev is not None:
-				func_prev['end'] = modules[module_name]['end']
-				func_prev = None
-
-			line = info_func_str.readline().strip('\n')
-			continue
-
-		func_name = line.split()[1]
-		func_start = get_address_from_string(line.split()[0])
-		module_name = get_module_from_addr(modules, func_start)
-
-		if func_name not in functions.keys():
-			functions[func_name] = {}
-		functions[func_name][module_name] = {}
-		functions[func_name][module_name]['start'] = func_start
-		functions[func_name][module_name]['cycles'] = 0
-		functions[func_name][module_name]['count'] = 0
-
-		# Set the end address of the previous function
-		if func_prev is not None:
-			func_prev['end'] = func_start
-		func_prev = functions[func_name][module_name]
-
-		line = info_func_str.readline().strip('\n')
-
-	# Fixup the last function
-	func_prev['end'] = modules[module_name]['end']
-
-	if symbols_file is not None:
-		pickle.dump((modules, functions), open(symbols_file, "w"))
-except:
-	if symbols_file is None:
-		print "Error: Symbols file is required when run out of ARM DS-5"
-		sys.exit()
-
-	(modules, functions) = pickle.load(open(symbols_file, "r"))
-
-#
-# Build optimized table for the <Unknown> functions
-#
-functions_addr = {}
-for func_key, module in functions.iteritems():
-	for module_key, module_value in module.iteritems():
-		key = module_value['start'] & ~0x0FFF
-		if key not in functions_addr.keys():
-			functions_addr[key] = {}
-		if func_key not in functions_addr[key].keys():
-			functions_addr[key][func_key] = {}
-		functions_addr[key][func_key][module_key] = module_value
-
-#
-# Process the trace file
-#
-if trace_name is None:
-	sys.exit()
-
-trace = open(trace_name, "r")
-trace_size = os.path.getsize(trace_name)
-trace_process = 0
-
-# Get the column names from the first line
-columns = trace_read().split()
-column_addr     = columns.index('Address')
-column_cycles   = columns.index('Cycles')
-column_function = columns.index('Function')
-
-line = trace_read()
-i = 0
-prev_callee = None
-while line:
-	try:
-		func_name = line.split('\t')[column_function].strip()
-		address   = get_address_from_string(line.split('\t')[column_addr])
-		cycles    = int(line.split('\t')[column_cycles])
-		callee = add_cycles_to_function(functions, func_name, address, cycles)
-		if (prev_callee != None) and (prev_callee != callee):
-			functions[prev_callee[0]][prev_callee[1]]['count'] += 1
-		prev_callee = callee
-	except ValueError:
-		pass
-	line = trace_read()
-	if ((i % 1000000) == 0) and (i != 0):
-		percent = (trace_process * 100.00) / trace_size
-		print "Processing file ... (%.2f %%)" % (percent)
-	i = i + 1
-
-# Fixup the last callee
-functions[prev_callee[0]][prev_callee[1]]['count'] += 1
-
-#
-# Process results
-#
-functions_cycles     = {}
-all_functions_cycles = {}
-total_cycles         = 0
-
-for func_key, module in functions.iteritems():
-	for module_key, module_value in module.iteritems():
-		key = "%s/%s" % (module_key, func_key)
-		functions_cycles[key] = (module_value['cycles'], module_value['count'])
-		total_cycles += module_value['cycles']
-
-		if func_key not in all_functions_cycles.keys():
-			all_functions_cycles[func_key] = (module_value['cycles'], module_value['count'])
-		else:
-			all_functions_cycles[func_key] = tuple(map(sum, zip(all_functions_cycles[func_key], (module_value['cycles'], module_value['count']))))
-
-sorted_functions_cycles     = sorted(functions_cycles.iteritems(), key=operator.itemgetter(1), reverse = True)
-sorted_all_functions_cycles = sorted(all_functions_cycles.items(), key=operator.itemgetter(1), reverse = True)
-
-print
-print "----"
-for (key,value) in sorted_functions_cycles[:20]:
-	if value[0] != 0:
-		print "%s (cycles: %d - %d%%, count: %d)" % (key, value[0], (value[0] * 100) / total_cycles, value[1])
-	else:
-		break;
-print "----"
-for (key,value) in sorted_all_functions_cycles[:20]:
-	if value[0] != 0:
-		print "%s (cycles: %d - %d%%, count: %d)" % (key, value[0], (value[0] * 100) / total_cycles, value[1])
-	else:
-		break;
+#!/usr/bin/python

+

+#

+#  Copyright (c) 2014, ARM Limited. All rights reserved.

+#

+#  SPDX-License-Identifier: BSD-2-Clause-Patent

+#

+

+import getopt

+import operator

+import os

+import pickle

+import sys

+from sys import argv

+from cStringIO import StringIO

+

+modules = {}

+functions = {}

+functions_addr = {}

+

+def usage():

+    print "-t,--trace: Location of the Trace file"

+    print "-s,--symbols: Location of the symbols and modules"

+

+def get_address_from_string(address):

+    return int(address.strip("S:").strip("N:").strip("EL2:").strip("EL1:"), 16)

+

+def get_module_from_addr(modules, addr):

+    for key,value in modules.items():

+        if (value['start'] <= addr) and (addr <= value['end']):

+            return key

+    return None

+

+def add_cycles_to_function(functions, func_name, addr, cycles):

+    if func_name != "<Unknown>":

+        # Check if we are still in the previous function

+        if add_cycles_to_function.prev_func_name == func_name:

+            add_cycles_to_function.prev_entry['cycles'] += cycles

+            return (add_cycles_to_function.prev_func_name, add_cycles_to_function.prev_module_name)

+

+        if func_name in functions.keys():

+            for module_name, module_value in functions[func_name].iteritems():

+                if (module_value['start'] <= addr) and (addr < module_value['end']):

+                    module_value['cycles'] += cycles

+

+                    add_cycles_to_function.prev_func_name   = func_name

+                    add_cycles_to_function.prev_module_name = module_name

+                    add_cycles_to_function.prev_entry       = module_value

+                    return (func_name, module_name)

+                elif (module_value['end'] == 0):

+                    module_value['cycles'] += cycles

+

+                    add_cycles_to_function.prev_func_name   = func_name

+                    add_cycles_to_function.prev_module_name = module_name

+                    add_cycles_to_function.prev_entry       = module_value

+                    return (func_name, module_name)

+

+        # Workaround to fix the 'info func' limitation that does not expose the 'static' function

+        module_name = get_module_from_addr(modules, addr)

+        functions[func_name] = {}

+        functions[func_name][module_name] = {}

+        functions[func_name][module_name]['start']  = 0

+        functions[func_name][module_name]['end']    = 0

+        functions[func_name][module_name]['cycles'] = cycles

+        functions[func_name][module_name]['count']  = 0

+

+        add_cycles_to_function.prev_func_name   = func_name

+        add_cycles_to_function.prev_module_name = module_name

+        add_cycles_to_function.prev_entry       = functions[func_name][module_name]

+        return (func_name, module_name)

+    else:

+        # Check if we are still in the previous function

+        if (add_cycles_to_function.prev_entry is not None) and (add_cycles_to_function.prev_entry['start'] <= addr) and (addr < add_cycles_to_function.prev_entry['end']):

+            add_cycles_to_function.prev_entry['cycles'] += cycles

+            return (add_cycles_to_function.prev_func_name, add_cycles_to_function.prev_module_name)

+

+        # Generate the key for the given address

+        key = addr & ~0x0FFF

+

+        if key not in functions_addr.keys():

+            if 'Unknown' not in functions.keys():

+                functions['Unknown'] = {}

+            if 'Unknown' not in functions['Unknown'].keys():

+                functions['Unknown']['Unknown'] = {}

+                functions['Unknown']['Unknown']['cycles'] = 0

+                functions['Unknown']['Unknown']['count'] = 0

+            functions['Unknown']['Unknown']['cycles'] += cycles

+

+            add_cycles_to_function.prev_func_name = None

+            return None

+

+        for func_key, module in functions_addr[key].iteritems():

+            for module_key, module_value in module.iteritems():

+                if (module_value['start'] <= addr) and (addr < module_value['end']):

+                    module_value['cycles'] += cycles

+

+                    # In case o <Unknown> we prefer to fallback on the direct search

+                    add_cycles_to_function.prev_func_name   = func_key

+                    add_cycles_to_function.prev_module_name = module_key

+                    add_cycles_to_function.prev_entry       = module_value

+                    return (func_key, module_key)

+

+    print "Warning: Function %s @ 0x%x not found" % (func_name, addr)

+

+    add_cycles_to_function.prev_func_name = None

+    return None

+

+# Static variables for the previous function

+add_cycles_to_function.prev_func_name = None

+add_cycles_to_function.prev_entry     = None

+

+def trace_read():

+    global trace_process

+    line = trace.readline()

+    trace_process += len(line)

+    return line

+

+#

+# Parse arguments

+#

+trace_name = None

+symbols_file = None

+

+opts,args = getopt.getopt(sys.argv[1:], "ht:vs:v", ["help","trace=","symbols="])

+if (opts is None) or (not opts):

+    usage()

+    sys.exit()

+

+for o,a in opts:

+    if o in ("-h","--help"):

+        usage()

+        sys.exit()

+    elif o in ("-t","--trace"):

+        trace_name = a

+    elif o in ("-s","--symbols"):

+        symbols_file = a

+    else:

+        assert False, "Unhandled option (%s)" % o

+

+#

+# We try first to see if we run the script from DS-5

+#

+try:

+    from arm_ds.debugger_v1 import Debugger

+    from arm_ds.debugger_v1 import DebugException

+

+    # Debugger object for accessing the debugger

+    debugger = Debugger()

+

+    # Initialisation commands

+    ec = debugger.getExecutionContext(0)

+    ec.getExecutionService().stop()

+    ec.getExecutionService().waitForStop()

+    # in case the execution context reference is out of date

+    ec = debugger.getExecutionContext(0)

+

+    #

+    # Get the module name and their memory range

+    #

+    info_file = ec.executeDSCommand("info file")

+    info_file_str = StringIO(info_file)

+

+    line = info_file_str.readline().strip('\n')

+    while line != '':

+        if ("Symbols from" in line):

+            # Get the module name from the line 'Symbols from "/home/...."'

+            module_name = line.split("\"")[1].split("/")[-1]

+            modules[module_name] = {}

+

+            # Look for the text section

+            line = info_file_str.readline().strip('\n')

+            while (line != '') and ("Symbols from" not in line):

+                if ("ER_RO" in line):

+                    modules[module_name]['start'] = get_address_from_string(line.split()[0])

+                    modules[module_name]['end']   = get_address_from_string(line.split()[2])

+                    line = info_file_str.readline().strip('\n')

+                    break;

+                if (".text" in line):

+                    modules[module_name]['start'] = get_address_from_string(line.split()[0])

+                    modules[module_name]['end']   = get_address_from_string(line.split()[2])

+                    line = info_file_str.readline().strip('\n')

+                    break;

+                line = info_file_str.readline().strip('\n')

+        line = info_file_str.readline().strip('\n')

+

+    #

+    # Get the function name and their memory range

+    #

+    info_func = ec.executeDSCommand("info func")

+    info_func_str = StringIO(info_func)

+

+    # Skip the first line 'Low-level symbols ...'

+    line = info_func_str.readline().strip('\n')

+    func_prev = None

+    while line != '':

+        # We ignore all the functions after 'Functions in'

+        if ("Functions in " in line):

+            line = info_func_str.readline().strip('\n')

+            while line != '':

+                line = info_func_str.readline().strip('\n')

+            line = info_func_str.readline().strip('\n')

+            continue

+

+        if ("Low-level symbols" in line):

+            # We need to fixup the last function of the module

+            if func_prev is not None:

+                func_prev['end'] = modules[module_name]['end']

+                func_prev = None

+

+            line = info_func_str.readline().strip('\n')

+            continue

+

+        func_name = line.split()[1]

+        func_start = get_address_from_string(line.split()[0])

+        module_name = get_module_from_addr(modules, func_start)

+

+        if func_name not in functions.keys():

+            functions[func_name] = {}

+        functions[func_name][module_name] = {}

+        functions[func_name][module_name]['start'] = func_start

+        functions[func_name][module_name]['cycles'] = 0

+        functions[func_name][module_name]['count'] = 0

+

+        # Set the end address of the previous function

+        if func_prev is not None:

+            func_prev['end'] = func_start

+        func_prev = functions[func_name][module_name]

+

+        line = info_func_str.readline().strip('\n')

+

+    # Fixup the last function

+    func_prev['end'] = modules[module_name]['end']

+

+    if symbols_file is not None:

+        pickle.dump((modules, functions), open(symbols_file, "w"))

+except:

+    if symbols_file is None:

+        print "Error: Symbols file is required when run out of ARM DS-5"

+        sys.exit()

+

+    (modules, functions) = pickle.load(open(symbols_file, "r"))

+

+#

+# Build optimized table for the <Unknown> functions

+#

+functions_addr = {}

+for func_key, module in functions.iteritems():

+    for module_key, module_value in module.iteritems():

+        key = module_value['start'] & ~0x0FFF

+        if key not in functions_addr.keys():

+            functions_addr[key] = {}

+        if func_key not in functions_addr[key].keys():

+            functions_addr[key][func_key] = {}

+        functions_addr[key][func_key][module_key] = module_value

+

+#

+# Process the trace file

+#

+if trace_name is None:

+    sys.exit()

+

+trace = open(trace_name, "r")

+trace_size = os.path.getsize(trace_name)

+trace_process = 0

+

+# Get the column names from the first line

+columns = trace_read().split()

+column_addr     = columns.index('Address')

+column_cycles   = columns.index('Cycles')

+column_function = columns.index('Function')

+

+line = trace_read()

+i = 0

+prev_callee = None

+while line:

+    try:

+        func_name = line.split('\t')[column_function].strip()

+        address   = get_address_from_string(line.split('\t')[column_addr])

+        cycles    = int(line.split('\t')[column_cycles])

+        callee = add_cycles_to_function(functions, func_name, address, cycles)

+        if (prev_callee != None) and (prev_callee != callee):

+            functions[prev_callee[0]][prev_callee[1]]['count'] += 1

+        prev_callee = callee

+    except ValueError:

+        pass

+    line = trace_read()

+    if ((i % 1000000) == 0) and (i != 0):

+        percent = (trace_process * 100.00) / trace_size

+        print "Processing file ... (%.2f %%)" % (percent)

+    i = i + 1

+

+# Fixup the last callee

+functions[prev_callee[0]][prev_callee[1]]['count'] += 1

+

+#

+# Process results

+#

+functions_cycles     = {}

+all_functions_cycles = {}

+total_cycles         = 0

+

+for func_key, module in functions.iteritems():

+    for module_key, module_value in module.iteritems():

+        key = "%s/%s" % (module_key, func_key)

+        functions_cycles[key] = (module_value['cycles'], module_value['count'])

+        total_cycles += module_value['cycles']

+

+        if func_key not in all_functions_cycles.keys():

+            all_functions_cycles[func_key] = (module_value['cycles'], module_value['count'])

+        else:

+            all_functions_cycles[func_key] = tuple(map(sum, zip(all_functions_cycles[func_key], (module_value['cycles'], module_value['count']))))

+

+sorted_functions_cycles     = sorted(functions_cycles.iteritems(), key=operator.itemgetter(1), reverse = True)

+sorted_all_functions_cycles = sorted(all_functions_cycles.items(), key=operator.itemgetter(1), reverse = True)

+

+print

+print "----"

+for (key,value) in sorted_functions_cycles[:20]:

+    if value[0] != 0:

+        print "%s (cycles: %d - %d%%, count: %d)" % (key, value[0], (value[0] * 100) / total_cycles, value[1])

+    else:

+        break;

+print "----"

+for (key,value) in sorted_all_functions_cycles[:20]:

+    if value[0] != 0:

+        print "%s (cycles: %d - %d%%, count: %d)" % (key, value[0], (value[0] * 100) / total_cycles, value[1])

+    else:

+        break;