mirror of
https://github.com/CloverHackyColor/CloverBootloader.git
synced 2024-11-29 12:35:53 +01:00
84f41b2b58
Signed-off-by: Slice <sergey.slice@gmail.com>
329 lines
12 KiB
Python
329 lines
12 KiB
Python
#!/usr/bin/python
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#
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# Copyright (c) 2014, ARM Limited. All rights reserved.
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#
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# SPDX-License-Identifier: BSD-2-Clause-Patent
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#
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import getopt
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import operator
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import os
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import pickle
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import sys
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from sys import argv
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from cStringIO import StringIO
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modules = {}
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functions = {}
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functions_addr = {}
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def usage():
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print "-t,--trace: Location of the Trace file"
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print "-s,--symbols: Location of the symbols and modules"
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def get_address_from_string(address):
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return int(address.strip("S:").strip("N:").strip("EL2:").strip("EL1:"), 16)
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def get_module_from_addr(modules, addr):
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for key,value in modules.items():
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if (value['start'] <= addr) and (addr <= value['end']):
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return key
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return None
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def add_cycles_to_function(functions, func_name, addr, cycles):
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if func_name != "<Unknown>":
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# Check if we are still in the previous function
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if add_cycles_to_function.prev_func_name == func_name:
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add_cycles_to_function.prev_entry['cycles'] += cycles
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return (add_cycles_to_function.prev_func_name, add_cycles_to_function.prev_module_name)
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if func_name in functions.keys():
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for module_name, module_value in functions[func_name].iteritems():
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if (module_value['start'] <= addr) and (addr < module_value['end']):
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module_value['cycles'] += cycles
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add_cycles_to_function.prev_func_name = func_name
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add_cycles_to_function.prev_module_name = module_name
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add_cycles_to_function.prev_entry = module_value
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return (func_name, module_name)
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elif (module_value['end'] == 0):
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module_value['cycles'] += cycles
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add_cycles_to_function.prev_func_name = func_name
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add_cycles_to_function.prev_module_name = module_name
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add_cycles_to_function.prev_entry = module_value
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return (func_name, module_name)
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# Workaround to fix the 'info func' limitation that does not expose the 'static' function
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module_name = get_module_from_addr(modules, addr)
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functions[func_name] = {}
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functions[func_name][module_name] = {}
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functions[func_name][module_name]['start'] = 0
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functions[func_name][module_name]['end'] = 0
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functions[func_name][module_name]['cycles'] = cycles
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functions[func_name][module_name]['count'] = 0
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add_cycles_to_function.prev_func_name = func_name
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add_cycles_to_function.prev_module_name = module_name
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add_cycles_to_function.prev_entry = functions[func_name][module_name]
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return (func_name, module_name)
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else:
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# Check if we are still in the previous function
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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']):
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add_cycles_to_function.prev_entry['cycles'] += cycles
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return (add_cycles_to_function.prev_func_name, add_cycles_to_function.prev_module_name)
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# Generate the key for the given address
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key = addr & ~0x0FFF
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if key not in functions_addr.keys():
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if 'Unknown' not in functions.keys():
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functions['Unknown'] = {}
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if 'Unknown' not in functions['Unknown'].keys():
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functions['Unknown']['Unknown'] = {}
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functions['Unknown']['Unknown']['cycles'] = 0
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functions['Unknown']['Unknown']['count'] = 0
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functions['Unknown']['Unknown']['cycles'] += cycles
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add_cycles_to_function.prev_func_name = None
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return None
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for func_key, module in functions_addr[key].iteritems():
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for module_key, module_value in module.iteritems():
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if (module_value['start'] <= addr) and (addr < module_value['end']):
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module_value['cycles'] += cycles
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# In case o <Unknown> we prefer to fallback on the direct search
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add_cycles_to_function.prev_func_name = func_key
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add_cycles_to_function.prev_module_name = module_key
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add_cycles_to_function.prev_entry = module_value
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return (func_key, module_key)
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print "Warning: Function %s @ 0x%x not found" % (func_name, addr)
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add_cycles_to_function.prev_func_name = None
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return None
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# Static variables for the previous function
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add_cycles_to_function.prev_func_name = None
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add_cycles_to_function.prev_entry = None
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def trace_read():
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global trace_process
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line = trace.readline()
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trace_process += len(line)
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return line
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#
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# Parse arguments
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#
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trace_name = None
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symbols_file = None
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opts,args = getopt.getopt(sys.argv[1:], "ht:vs:v", ["help","trace=","symbols="])
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if (opts is None) or (not opts):
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usage()
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sys.exit()
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for o,a in opts:
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if o in ("-h","--help"):
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usage()
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sys.exit()
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elif o in ("-t","--trace"):
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trace_name = a
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elif o in ("-s","--symbols"):
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symbols_file = a
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else:
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assert False, "Unhandled option (%s)" % o
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#
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# We try first to see if we run the script from DS-5
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#
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try:
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from arm_ds.debugger_v1 import Debugger
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from arm_ds.debugger_v1 import DebugException
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# Debugger object for accessing the debugger
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debugger = Debugger()
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# Initialisation commands
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ec = debugger.getExecutionContext(0)
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ec.getExecutionService().stop()
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ec.getExecutionService().waitForStop()
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# in case the execution context reference is out of date
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ec = debugger.getExecutionContext(0)
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#
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# Get the module name and their memory range
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#
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info_file = ec.executeDSCommand("info file")
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info_file_str = StringIO(info_file)
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line = info_file_str.readline().strip('\n')
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while line != '':
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if ("Symbols from" in line):
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# Get the module name from the line 'Symbols from "/home/...."'
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module_name = line.split("\"")[1].split("/")[-1]
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modules[module_name] = {}
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# Look for the text section
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line = info_file_str.readline().strip('\n')
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while (line != '') and ("Symbols from" not in line):
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if ("ER_RO" in line):
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modules[module_name]['start'] = get_address_from_string(line.split()[0])
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modules[module_name]['end'] = get_address_from_string(line.split()[2])
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line = info_file_str.readline().strip('\n')
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break;
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if (".text" in line):
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modules[module_name]['start'] = get_address_from_string(line.split()[0])
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modules[module_name]['end'] = get_address_from_string(line.split()[2])
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line = info_file_str.readline().strip('\n')
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break;
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line = info_file_str.readline().strip('\n')
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line = info_file_str.readline().strip('\n')
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#
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# Get the function name and their memory range
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#
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info_func = ec.executeDSCommand("info func")
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info_func_str = StringIO(info_func)
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# Skip the first line 'Low-level symbols ...'
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line = info_func_str.readline().strip('\n')
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func_prev = None
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while line != '':
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# We ignore all the functions after 'Functions in'
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if ("Functions in " in line):
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line = info_func_str.readline().strip('\n')
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while line != '':
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line = info_func_str.readline().strip('\n')
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line = info_func_str.readline().strip('\n')
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continue
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if ("Low-level symbols" in line):
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# We need to fixup the last function of the module
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if func_prev is not None:
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func_prev['end'] = modules[module_name]['end']
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func_prev = None
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line = info_func_str.readline().strip('\n')
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continue
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func_name = line.split()[1]
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func_start = get_address_from_string(line.split()[0])
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module_name = get_module_from_addr(modules, func_start)
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if func_name not in functions.keys():
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functions[func_name] = {}
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functions[func_name][module_name] = {}
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functions[func_name][module_name]['start'] = func_start
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functions[func_name][module_name]['cycles'] = 0
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functions[func_name][module_name]['count'] = 0
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# Set the end address of the previous function
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if func_prev is not None:
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func_prev['end'] = func_start
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func_prev = functions[func_name][module_name]
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line = info_func_str.readline().strip('\n')
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# Fixup the last function
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func_prev['end'] = modules[module_name]['end']
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if symbols_file is not None:
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pickle.dump((modules, functions), open(symbols_file, "w"))
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except:
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if symbols_file is None:
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print "Error: Symbols file is required when run out of ARM DS-5"
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sys.exit()
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(modules, functions) = pickle.load(open(symbols_file, "r"))
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#
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# Build optimized table for the <Unknown> functions
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#
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functions_addr = {}
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for func_key, module in functions.iteritems():
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for module_key, module_value in module.iteritems():
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key = module_value['start'] & ~0x0FFF
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if key not in functions_addr.keys():
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functions_addr[key] = {}
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if func_key not in functions_addr[key].keys():
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functions_addr[key][func_key] = {}
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functions_addr[key][func_key][module_key] = module_value
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#
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# Process the trace file
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#
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if trace_name is None:
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sys.exit()
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trace = open(trace_name, "r")
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trace_size = os.path.getsize(trace_name)
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trace_process = 0
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# Get the column names from the first line
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columns = trace_read().split()
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column_addr = columns.index('Address')
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column_cycles = columns.index('Cycles')
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column_function = columns.index('Function')
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line = trace_read()
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i = 0
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prev_callee = None
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while line:
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try:
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func_name = line.split('\t')[column_function].strip()
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address = get_address_from_string(line.split('\t')[column_addr])
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cycles = int(line.split('\t')[column_cycles])
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callee = add_cycles_to_function(functions, func_name, address, cycles)
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if (prev_callee != None) and (prev_callee != callee):
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functions[prev_callee[0]][prev_callee[1]]['count'] += 1
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prev_callee = callee
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except ValueError:
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pass
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line = trace_read()
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if ((i % 1000000) == 0) and (i != 0):
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percent = (trace_process * 100.00) / trace_size
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print "Processing file ... (%.2f %%)" % (percent)
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i = i + 1
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# Fixup the last callee
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functions[prev_callee[0]][prev_callee[1]]['count'] += 1
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#
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# Process results
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#
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functions_cycles = {}
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all_functions_cycles = {}
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total_cycles = 0
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for func_key, module in functions.iteritems():
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for module_key, module_value in module.iteritems():
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key = "%s/%s" % (module_key, func_key)
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functions_cycles[key] = (module_value['cycles'], module_value['count'])
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total_cycles += module_value['cycles']
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if func_key not in all_functions_cycles.keys():
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all_functions_cycles[func_key] = (module_value['cycles'], module_value['count'])
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else:
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all_functions_cycles[func_key] = tuple(map(sum, zip(all_functions_cycles[func_key], (module_value['cycles'], module_value['count']))))
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sorted_functions_cycles = sorted(functions_cycles.iteritems(), key=operator.itemgetter(1), reverse = True)
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sorted_all_functions_cycles = sorted(all_functions_cycles.items(), key=operator.itemgetter(1), reverse = True)
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print
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print "----"
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for (key,value) in sorted_functions_cycles[:20]:
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if value[0] != 0:
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print "%s (cycles: %d - %d%%, count: %d)" % (key, value[0], (value[0] * 100) / total_cycles, value[1])
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else:
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break;
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print "----"
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for (key,value) in sorted_all_functions_cycles[:20]:
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if value[0] != 0:
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print "%s (cycles: %d - %d%%, count: %d)" % (key, value[0], (value[0] * 100) / total_cycles, value[1])
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else:
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break;
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