""" Please make sure you read the README file COMPLETELY BEFORE reading anything below.
It is very critical that you read coding guidelines in Section E in README file.
"""
import sys, re, time, getopt, shlex, os, time
import lldb
import struct
from core.cvalue import *
from core.configuration import *
from core.lazytarget import *
lldb_run_command_state = {'active':False}
def lldb_run_command(cmdstring):
""" Run a lldb command and get the string output.
params: cmdstring - str : lldb command string which could be executed at (lldb) prompt. (eg. "register read")
returns: str - output of command. it may be "" in case if command did not return any output.
"""
global lldb_run_command_state
retval =""
res = lldb.SBCommandReturnObject()
lldb_run_command_state['active'] = True
lldb.debugger.GetCommandInterpreter().HandleCommand(cmdstring, res)
lldb_run_command_state['active'] = False
if res.Succeeded():
retval = res.GetOutput()
else:
retval = "ERROR:" + res.GetError()
return retval
def EnableLLDBAPILogging():
""" Enable file based logging for lldb and also provide essential information about what information
to include when filing a bug with lldb or xnu.
"""
logfile_name = "/tmp/lldb.%d.log" % int(time.time())
enable_log_base_cmd = "log enable --file %s " % logfile_name
cmd_str = enable_log_base_cmd + ' lldb api'
print cmd_str
print lldb_run_command(cmd_str)
cmd_str = enable_log_base_cmd + ' gdb-remote packets'
print cmd_str
print lldb_run_command(cmd_str)
cmd_str = enable_log_base_cmd + ' kdp-remote packets'
print cmd_str
print lldb_run_command(cmd_str)
print lldb_run_command("version")
print "Please collect the logs from %s for filing a radar. If you had encountered an exception in a lldbmacro command please re-run it." % logfile_name
print "Please make sure to provide the output of 'version', 'image list' and output of command that failed."
return
def GetConnectionProtocol():
""" Returns a string representing what kind of connection is used for debugging the target.
params: None
returns:
str - connection type. One of ("core","kdp","gdb", "unknown")
"""
retval = "unknown"
process_plugin_name = LazyTarget.GetProcess().GetPluginName().lower()
if "kdp" in process_plugin_name:
retval = "kdp"
elif "gdb" in process_plugin_name:
retval = "gdb"
elif "mach-o" in process_plugin_name and "core" in process_plugin_name:
retval = "core"
return retval
def SBValueToPointer(sbval):
""" Helper function for getting pointer value from an object of pointer type.
ex. void *astring = 0x12345
use SBValueToPointer(astring_val) to get 0x12345
params: sbval - value object of type '<type> *'
returns: int - pointer value as an int.
"""
if type(sbval) == core.value:
sbval = sbval.GetSBValue()
if sbval.IsPointerType():
return sbval.GetValueAsUnsigned()
else:
return int(sbval.GetAddress())
def ArgumentStringToInt(arg_string):
""" convert '1234' or '0x123' to int
params:
arg_string: str - typically string passed from commandline. ex '1234' or '0xA12CD'
returns:
int - integer representation of the string
"""
arg_string = arg_string.strip()
if arg_string.find('0x') >=0:
return int(arg_string, 16)
else:
return int(arg_string)
def GetLongestMatchOption(searchstr, options=[], ignore_case=True):
""" Get longest matched string from set of options.
params:
searchstr : string of chars to be matched
options : array of strings that are to be matched
returns:
[] - array of matched options. The order of options is same as the arguments.
empty array is returned if searchstr does not match any option.
example:
subcommand = LongestMatch('Rel', ['decode', 'enable', 'reload'], ignore_case=True)
print subcommand # prints ['reload']
"""
if ignore_case:
searchstr = searchstr.lower()
found_options = []
for o in options:
so = o
if ignore_case:
so = o.lower()
if so == searchstr:
return [o]
if so.find(searchstr) >=0 :
found_options.append(o)
return found_options
def GetType(target_type):
""" type cast an object to new type.
params:
target_type - str, ex. 'char', 'uint32_t' etc
returns:
lldb.SBType - a new Type that can be used as param to lldb.SBValue.Cast()
raises:
NameError - Incase the type is not identified
"""
return gettype(target_type)
def Cast(obj, target_type):
""" Type cast an object to another C type.
params:
obj - core.value object representing some C construct in lldb
target_type - str : ex 'char *'
- lldb.SBType :
"""
return cast(obj, target_type)
def loadLLDB():
""" Util function to load lldb python framework in case not available in common include paths.
"""
try:
import lldb
print 'Found LLDB on path'
except:
platdir = subprocess.check_output('xcodebuild -version -sdk iphoneos PlatformPath'.split())
offset = platdir.find("Contents/Developer")
if offset == -1:
lldb_py = os.path.join(os.path.dirname(os.path.dirname(platdir)), 'Library/PrivateFrameworks/LLDB.framework/Versions/A/Resources/Python')
else:
lldb_py = os.path.join(platdir[0:offset+8], 'SharedFrameworks/LLDB.framework/Versions/A/Resources/Python')
if os.path.isdir(lldb_py):
sys.path.append(lldb_py)
global lldb
lldb = __import__('lldb')
print 'Found LLDB in SDK'
else:
print 'Failed to locate lldb.py from', lldb_py
sys.exit(-1)
return True
class Logger():
""" A logging utility """
def __init__(self, log_file_path="/tmp/xnu.log"):
self.log_file_handle = open(log_file_path, "w+")
self.redirect_to_stdout = False
def log_debug(self, *args):
current_timestamp = time.time()
debug_line_str = "DEBUG:" + str(current_timestamp) + ":"
for arg in args:
debug_line_str += " " + str(arg).replace("\n", " ") + ", "
self.log_file_handle.write(debug_line_str + "\n")
if self.redirect_to_stdout :
print debug_line_str
def write(self, line):
self.log_debug(line)
def sizeof_fmt(num, unit_str='B'):
""" format large number into human readable values.
convert any number into Kilo, Mega, Giga, Tera format for human understanding.
params:
num - int : number to be converted
unit_str - str : a suffix for unit. defaults to 'B' for bytes.
returns:
str - formatted string for printing.
"""
for x in ['','K','M','G','T']:
if num < 1024.0:
return "%3.1f%s%s" % (num, x,unit_str)
num /= 1024.0
return "%3.1f%s%s" % (num, 'P', unit_str)
def WriteStringToMemoryAddress(stringval, addr):
""" write a null terminated string to address.
params:
stringval: str- string to be written to memory. a '\0' will be added at the end
addr : int - address where data is to be written
returns:
bool - True if successfully written
"""
serr = lldb.SBError()
length = len(stringval) + 1
format_string = "%ds" % length
sdata = struct.pack(format_string,stringval)
numbytes = LazyTarget.GetProcess().WriteMemory(addr, sdata, serr)
if numbytes == length and serr.Success():
return True
return False
def WriteInt64ToMemoryAddress(intval, addr):
""" write a 64 bit integer at an address.
params:
intval - int - an integer value to be saved
addr - int - address where int is to be written
returns:
bool - True if successfully written.
"""
serr = lldb.SBError()
sdata = struct.pack('Q', intval)
addr = int(hex(addr).rstrip('L'), 16)
numbytes = LazyTarget.GetProcess().WriteMemory(addr,sdata, serr)
if numbytes == 8 and serr.Success():
return True
return False
def WritePtrDataToMemoryAddress(intval, addr):
""" Write data to pointer size memory.
This is equivalent of doing *(&((struct pmap *)addr)) = intval
It will identify 32/64 bit kernel and write memory accordingly.
params:
intval - int - an integer value to be saved
addr - int - address where int is to be written
returns:
bool - True if successfully written.
"""
if kern.ptrsize == 8:
return WriteInt64ToMemoryAddress(intval, addr)
else:
return WriteInt32ToMemoryAddress(intval, addr)
def WriteInt32ToMemoryAddress(intval, addr):
""" write a 32 bit integer at an address.
params:
intval - int - an integer value to be saved
addr - int - address where int is to be written
returns:
bool - True if successfully written.
"""
serr = lldb.SBError()
sdata = struct.pack('I', intval)
addr = int(hex(addr).rstrip('L'), 16)
numbytes = LazyTarget.GetProcess().WriteMemory(addr,sdata, serr)
if numbytes == 4 and serr.Success():
return True
return False
def WriteInt16ToMemoryAddress(intval, addr):
""" write a 16 bit integer at an address.
params:
intval - int - an integer value to be saved
addr - int - address where int is to be written
returns:
bool - True if successfully written.
"""
serr = lldb.SBError()
sdata = struct.pack('H', intval)
addr = int(hex(addr).rstrip('L'), 16)
numbytes = LazyTarget.GetProcess().WriteMemory(addr,sdata, serr)
if numbytes == 2 and serr.Success():
return True
return False
def WriteInt8ToMemoryAddress(intval, addr):
""" write a 8 bit integer at an address.
params:
intval - int - an integer value to be saved
addr - int - address where int is to be written
returns:
bool - True if successfully written.
"""
serr = lldb.SBError()
sdata = struct.pack('B', intval)
addr = int(hex(addr).rstrip('L'), 16)
numbytes = LazyTarget.GetProcess().WriteMemory(addr,sdata, serr)
if numbytes == 1 and serr.Success():
return True
return False
_enum_cache = {}
def GetEnumValue(name):
""" Finds the value of a particular enum define. Ex kdp_req_t::KDP_VERSION => 0x3
params:
name : str - name of enum in the format type::name
returns:
int - value of the particular enum.
raises:
TypeError - if the enum is not found
"""
name = name.strip()
global _enum_cache
if name not in _enum_cache:
res = lldb.SBCommandReturnObject()
lldb.debugger.GetCommandInterpreter().HandleCommand("p/x (`%s`)" % name, res)
if not res.Succeeded():
raise TypeError("Enum not found with name: " + name)
_enum_cache[name] = int( res.GetOutput().split('=')[-1].strip(), 16)
return _enum_cache[name]
def ResolveFSPath(path):
""" expand ~user directories and return absolute path.
params: path - str - eg "~rc/Software"
returns:
str - abs path with user directories and symlinks expanded.
str - if path resolution fails then returns the same string back
"""
expanded_path = os.path.expanduser(path)
norm_path = os.path.normpath(expanded_path)
return norm_path
_dsymlist = {}
uuid_regex = re.compile("[a-f0-9]{8}-[a-f0-9]{4}-[a-f0-9]{4}-[a-f0-9]{4}-[a-f0-9]{12}",re.IGNORECASE|re.DOTALL)
def addDSYM(uuid, info):
""" add a module by dsym into the target modules.
params: uuid - str - uuid string eg. 4DD2344C0-4A81-3EAB-BDCF-FEAFED9EB73E
info - dict - info dictionary passed from dsymForUUID
"""
global _dsymlist
if "DBGSymbolRichExecutable" not in info:
print "Error: Unable to find syms for %s" % uuid
return False
if not uuid in _dsymlist:
cmd_str = "target modules add --uuid %s" % uuid
debuglog(cmd_str)
lldb.debugger.HandleCommand(cmd_str)
_dsymlist[uuid] = True
def loadDSYM(uuid, load_address, sections=[]):
""" Load an already added symbols to a particular load address
params: uuid - str - uuid string
load_address - int - address where to load the symbols
returns bool:
True - if successful
False - if failed. possible because uuid is not presently loaded.
"""
if uuid not in _dsymlist:
return False
if not sections:
cmd_str = "target modules load --uuid %s --slide %d" % ( uuid, load_address)
debuglog(cmd_str)
else:
cmd_str = "target modules load --uuid {} ".format(uuid)
sections_str = ""
for s in sections:
sections_str += " {} {:#0x} ".format(s.name, s.vmaddr)
cmd_str += sections_str
debuglog(cmd_str)
lldb.debugger.HandleCommand(cmd_str)
return True
def RunShellCommand(command):
""" Run a shell command in subprocess.
params: command with arguments to run
returns: (exit_code, stdout, stderr)
"""
import shlex, subprocess
cmd_args = shlex.split(command)
output_str = ""
exit_code = 0
try:
output_str = subprocess.check_output(cmd_args, stderr=subprocess.STDOUT)
except subprocess.CalledProcessError, e:
exit_code = e.returncode
finally:
return (exit_code, output_str, '')
def dsymForUUID(uuid):
""" Get dsym informaiton by calling dsymForUUID
params: uuid - str - uuid string from executable. eg. 4DD2344C0-4A81-3EAB-BDCF-FEAFED9EB73E
returns:
{} - a dictionary holding dsym information printed by dsymForUUID.
None - if failed to find information
"""
import subprocess
import plistlib
output = subprocess.check_output(["/usr/local/bin/dsymForUUID", "--copyExecutable", uuid])
if output:
keyvalue_extract_re = re.compile("<key>(.*?)</key>\s*<string>(.*?)</string>",re.IGNORECASE|re.MULTILINE|re.DOTALL)
plist={}
plist[uuid] = {}
for item in keyvalue_extract_re.findall(output):
plist[uuid][item[0]] = item[1]
if plist and plist[uuid]:
return plist[uuid]
return None
def debuglog(s):
""" Print a object in the debug stream
"""
global config
if config['debug']:
print "DEBUG:",s
return None
def IsAppleInternal():
""" check if apple_internal modules are available
returns: True if apple_internal module is present
"""
import imp
try:
imp.find_module("apple_internal")
retval = True
except ImportError:
retval = False
return retval
def print_hex_data(data, begin_offset=0, desc=""):
""" print on stdout "hexdump -C < data" like output
params:
data - bytearray or array of int where each int < 255
begin_offset - int offset that should be printed in left column
desc - str optional description to print on the first line to describe data
"""
if desc:
print "{}:".format(desc)
index = 0
total_len = len(data)
hex_buf = ""
char_buf = ""
while index < total_len:
hex_buf += " {:02x}".format(data[index])
if data[index] < 0x20 or data[index] > 0x7e:
char_buf += "."
else:
char_buf += "{:c}".format(data[index])
index += 1
if index and index < total_len and index % 8 == 0:
hex_buf += " "
if index > 1 and index < total_len and (index % 16) == 0:
print "{:08x} {: <50s} |{: <16s}|".format(begin_offset + index - 16, hex_buf, char_buf)
hex_buf = ""
char_buf = ""
print "{:08x} {: <50s} |{: <16s}|".format(begin_offset + index - 16, hex_buf, char_buf)
return