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.gdbinit - A user-friendly gdb configuration file
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# INSTALL INSTRUCTIONS: save as ~/.gdbinit | |
# | |
# DESCRIPTION: A user-friendly gdb configuration file. | |
# | |
# REVISION : 7.3 (16/04/2010) | |
# | |
# CONTRIBUTORS: mammon_, elaine, pusillus, mong, zhang le, l0kit, | |
# truthix the cyberpunk, fG!, gln | |
# | |
# FEEDBACK: https://www.reverse-engineering.net | |
# The Linux Area | |
# Topic: "+HCU's .gdbinit Version 7.1 -- humble announce" | |
# http://reverse.put.as | |
# | |
# NOTES: 'help user' in gdb will list the commands/descriptions in this file | |
# 'context on' now enables auto-display of context screen | |
# | |
# MAC OS X NOTES: If you are using this on Mac OS X, you must either attach gdb to a process | |
# or launch gdb without any options and then load the binary file you want to analyse with "exec-file" option | |
# If you load the binary from the command line, like $gdb binary-name, this will not work as it should | |
# For more information, read it here http://reverse.put.as/2008/11/28/apples-gdb-bug/ | |
# | |
# UPDATE: This bug can be fixed in gdb source. Refer to http://reverse.put.as/2009/08/10/fix-for-apples-gdb-bug-or-why-apple-forks-are-bad/ | |
# and http://reverse.put.as/2009/08/26/gdb-patches/ (if you want the fixed binary for i386) | |
# | |
# CHANGELOG: | |
# | |
# Version 7.3 (16/04/2010) | |
# Support for 64bits targets. Default is 32bits, you should modify the variable or use the 32bits or 64bits to choose the mode. | |
# I couldn't find another way to recognize the type of binary… Testing the register doesn't work that well. | |
# TODO: fix objectivec messages and stepo for 64bits | |
# | |
# Version 7.2.1 (24/11/2009) | |
# Another fix to stepo (0xFF92 missing) | |
# | |
# Version 7.2 (11/10/2009) | |
# Added the smallregisters function to create 16 and 8 bit versions from the registers EAX, EBX, ECX, EDX | |
# Revised and fixed all the dumpjump stuff, following Intel manuals. There were some errors (thx to rev who pointed the jle problem). | |
# Small fix to stepo command (missed a few call types) | |
# | |
# Version 7.1.7 | |
# Added the possibility to modify what's displayed with the context window. You can change default options at the gdb options part. For example, kernel debugging is much slower if the stack display is enabled... | |
# New commands enableobjectivec, enablecpuregisters, enablestack, enabledatawin and their disable equivalents (to support realtime change of default options) | |
# Fixed problem with the assemble command. I was calling /bin/echo which doesn't support the -e option ! DUH ! Should have used bash internal version. | |
# Small fixes to colours... | |
# New commands enablesolib and disablesolib . Just shortcuts for the stop-on-solib-events fantastic trick ! Hey... I'm lazy ;) | |
# Fixed this: Possible removal of "u" command, info udot is missing in gdb 6.8-debian . Doesn't exist on OS X so bye bye !!! | |
# Displays affected flags in jump decisions | |
# | |
# Version 7.1.6 | |
# Added modified assemble command from Tavis Ormandy (further modified to work with Mac OS X) (shell commands used use full path name, working for Leopard, modify for others if necessary) | |
# Renamed thread command to threads because thread is an internal gdb command that allows to move between program threads | |
# | |
# Version 7.1.5 (04/01/2009) | |
# Fixed crash on Leopard ! There was a If Else condition where the else had no code and that made gdb crash on Leopard (CRAZY!!!!) | |
# Better code indention | |
# | |
# Version 7.1.4 (02/01/2009) | |
# Bug in show objective c messages with Leopard ??? | |
# Nop routine support for single address or range (contribution from gln [ghalen at hack.se]) | |
# Used the same code from nop to null routine | |
# | |
# Version 7.1.3 (31/12/2008) | |
# Added a new command 'stepo'. This command will step a temporary breakpoint on next instruction after the call, so you can skip over | |
# the call. Did this because normal commands not always skip over (mainly with objc_msgSend) | |
# | |
# Version 7.1.2 (31/12/2008) | |
# Support for the jump decision (will display if a conditional jump will be taken or not) | |
# | |
# Version 7.1.1 (29/12/2008) | |
# Moved gdb options to the beginning (makes more sense) | |
# Added support to dump message being sent to msgSend (easier to understand what's going on) | |
# | |
# Version 7.1 | |
# Fixed serious (and old) bug in dd and datawin, causing dereference of | |
# obviously invalid address. See below: | |
# gdb$ dd 0xffffffff | |
# FFFFFFFF : Cannot access memory at address 0xffffffff | |
# | |
# Version 7.0 | |
# Added cls command. | |
# Improved documentation of many commands. | |
# Removed bp_alloc, was neither portable nor usefull. | |
# Checking of passed argument(s) in these commands: | |
# contextsize-stack, contextsize-data, contextsize-code | |
# bp, bpc, bpe, bpd, bpt, bpm, bhb,... | |
# Fixed bp and bhb inconsistencies, look at * signs in Version 6.2 | |
# Bugfix in bhb command, changed "break" to "hb" command body | |
# Removed $SHOW_CONTEXT=1 from several commands, this variable | |
# should only be controlled globally with context-on and context-off | |
# Improved stack, func, var and sig, dis, n, go,... | |
# they take optional argument(s) now | |
# Fixed wrong $SHOW_CONTEXT assignment in context-off | |
# Fixed serious bug in cft command, forgotten ~ sign | |
# Fixed these bugs in step_to_call: | |
# 1) the correct logging sequence is: | |
# set logging file > set logging redirect > set logging on | |
# 2) $SHOW_CONTEXT is now correctly restored from $_saved_ctx | |
# Fixed these bugs in trace_calls: | |
# 1) the correct logging sequence is: | |
# set logging file > set logging overwrite > | |
# set logging redirect > set logging on | |
# 2) removed the "clean up trace file" part, which is not needed now, | |
# stepi output is properly redirected to /dev/null | |
# 3) $SHOW_CONTEXT is now correctly restored from $_saved_ctx | |
# Fixed bug in trace_run: | |
# 1) $SHOW_CONTEXT is now correctly restored from $_saved_ctx | |
# Fixed print_insn_type -- removed invalid semicolons!, wrong value checking, | |
# Added TODO entry regarding the "u" command | |
# Changed name from gas_assemble to assemble_gas due to consistency | |
# Output from assemble and assemble_gas is now similar, because i made | |
# both of them to use objdump, with respect to output format (AT&T|Intel). | |
# Whole code was checked and made more consistent, readable/maintainable. | |
# | |
# Version 6.2 | |
# Add global variables to allow user to control stack, data and code window sizes | |
# Increase readability for registers | |
# Some corrections (hexdump, ddump, context, cfp, assemble, gas_asm, tips, prompt) | |
# | |
# Version 6.1-color-user | |
# Took the Gentoo route and ran sed s/user/user/g | |
# | |
# Version 6.1-color | |
# Added color fixes from | |
# http://gnurbs.blogsome.com/2006/12/22/colorizing-mamons-gdbinit/ | |
# | |
# Version 6.1 | |
# Fixed filename in step_to_call so it points to /dev/null | |
# Changed location of logfiles from /tmp to ~ | |
# | |
# Version 6 | |
# Added print_insn_type, get_insn_type, context-on, context-off commands | |
# Added trace_calls, trace_run, step_to_call commands | |
# Changed hook-stop so it checks $SHOW_CONTEXT variable | |
# | |
# Version 5 | |
# Added bpm, dump_bin, dump_hex, bp_alloc commands | |
# Added 'assemble' by elaine, 'gas_asm' by mong | |
# Added Tip Topics for aspiring users ;) | |
# | |
# Version 4 | |
# Added eflags-changing insns by pusillus | |
# Added bp, nop, null, and int3 patch commands, also hook-stop | |
# | |
# Version 3 | |
# Incorporated elaine's if/else goodness into the hex/ascii dump | |
# | |
# Version 2 | |
# Radix bugfix by elaine | |
# | |
# TODO: | |
# Add dump, append, set write, etc commands | |
# Add more tips ! | |
# __________________gdb options_________________ | |
# set to 1 to enable 64bits target by default (32bit is the default) | |
set $64BITS = 1 | |
set confirm off | |
set verbose off | |
set prompt \033[31mgdb$ \033[0m | |
set output-radix 0x10 | |
set input-radix 0x10 | |
# These make gdb never pause in its output | |
set height 0 | |
set width 0 | |
# Display instructions in Intel format | |
set disassembly-flavor intel | |
set $SHOW_CONTEXT = 1 | |
set $SHOW_NEST_INSN = 0 | |
set $CONTEXTSIZE_STACK = 6 | |
set $CONTEXTSIZE_DATA = 8 | |
set $CONTEXTSIZE_CODE = 8 | |
# set to 0 to remove display of objectivec messages (default is 1) | |
set $SHOWOBJECTIVEC = 1 | |
# set to 0 to remove display of cpu registers (default is 1) | |
set $SHOWCPUREGISTERS = 1 | |
# set to 1 to enable display of stack (default is 0) | |
set $SHOWSTACK = 0 | |
# set to 1 to enable display of data window (default is 0) | |
set $SHOWDATAWIN = 0 | |
# __________________end gdb options_________________ | |
# ______________window size control___________ | |
define contextsize-stack | |
if $argc != 1 | |
help contextsize-stack | |
else | |
set $CONTEXTSIZE_STACK = $arg0 | |
end | |
end | |
document contextsize-stack | |
Set stack dump window size to NUM lines. | |
Usage: contextsize-stack NUM | |
end | |
define contextsize-data | |
if $argc != 1 | |
help contextsize-data | |
else | |
set $CONTEXTSIZE_DATA = $arg0 | |
end | |
end | |
document contextsize-data | |
Set data dump window size to NUM lines. | |
Usage: contextsize-data NUM | |
end | |
define contextsize-code | |
if $argc != 1 | |
help contextsize-code | |
else | |
set $CONTEXTSIZE_CODE = $arg0 | |
end | |
end | |
document contextsize-code | |
Set code window size to NUM lines. | |
Usage: contextsize-code NUM | |
end | |
# _____________breakpoint aliases_____________ | |
define bpl | |
info breakpoints | |
end | |
document bpl | |
List all breakpoints. | |
end | |
define bp | |
if $argc != 1 | |
help bp | |
else | |
break $arg0 | |
end | |
end | |
document bp | |
Set breakpoint. | |
Usage: bp LOCATION | |
LOCATION may be a line number, function name, or "*" and an address. | |
To break on a symbol you must enclose symbol name inside "". | |
Example: | |
bp "[NSControl stringValue]" | |
Or else you can use directly the break command (break [NSControl stringValue]) | |
end | |
define bpc | |
if $argc != 1 | |
help bpc | |
else | |
clear $arg0 | |
end | |
end | |
document bpc | |
Clear breakpoint. | |
Usage: bpc LOCATION | |
LOCATION may be a line number, function name, or "*" and an address. | |
end | |
define bpe | |
if $argc != 1 | |
help bpe | |
else | |
enable $arg0 | |
end | |
end | |
document bpe | |
Enable breakpoint with number NUM. | |
Usage: bpe NUM | |
end | |
define bpd | |
if $argc != 1 | |
help bpd | |
else | |
disable $arg0 | |
end | |
end | |
document bpd | |
Disable breakpoint with number NUM. | |
Usage: bpd NUM | |
end | |
define bpt | |
if $argc != 1 | |
help bpt | |
else | |
tbreak $arg0 | |
end | |
end | |
document bpt | |
Set a temporary breakpoint. | |
Will be deleted when hit! | |
Usage: bpt LOCATION | |
LOCATION may be a line number, function name, or "*" and an address. | |
end | |
define bpm | |
if $argc != 1 | |
help bpm | |
else | |
awatch $arg0 | |
end | |
end | |
document bpm | |
Set a read/write breakpoint on EXPRESSION, e.g. *address. | |
Usage: bpm EXPRESSION | |
end | |
define bhb | |
if $argc != 1 | |
help bhb | |
else | |
hb $arg0 | |
end | |
end | |
document bhb | |
Set hardware assisted breakpoint. | |
Usage: bhb LOCATION | |
LOCATION may be a line number, function name, or "*" and an address. | |
end | |
# ______________process information____________ | |
define argv | |
show args | |
end | |
document argv | |
Print program arguments. | |
end | |
define stack | |
if $argc == 0 | |
info stack | |
end | |
if $argc == 1 | |
info stack $arg0 | |
end | |
if $argc > 1 | |
help stack | |
end | |
end | |
document stack | |
Print backtrace of the call stack, or innermost COUNT frames. | |
Usage: stack <COUNT> | |
end | |
define frame | |
info frame | |
info args | |
info locals | |
end | |
document frame | |
Print stack frame. | |
end | |
define flags | |
# OF (overflow) flag | |
if (($eflags >> 0xB) & 1) | |
printf "O " | |
set $_of_flag = 1 | |
else | |
printf "o " | |
set $_of_flag = 0 | |
end | |
if (($eflags >> 0xA) & 1) | |
printf "D " | |
else | |
printf "d " | |
end | |
if (($eflags >> 9) & 1) | |
printf "I " | |
else | |
printf "i " | |
end | |
if (($eflags >> 8) & 1) | |
printf "T " | |
else | |
printf "t " | |
end | |
# SF (sign) flag | |
if (($eflags >> 7) & 1) | |
printf "S " | |
set $_sf_flag = 1 | |
else | |
printf "s " | |
set $_sf_flag = 0 | |
end | |
# ZF (zero) flag | |
if (($eflags >> 6) & 1) | |
printf "Z " | |
set $_zf_flag = 1 | |
else | |
printf "z " | |
set $_zf_flag = 0 | |
end | |
if (($eflags >> 4) & 1) | |
printf "A " | |
else | |
printf "a " | |
end | |
# PF (parity) flag | |
if (($eflags >> 2) & 1) | |
printf "P " | |
set $_pf_flag = 1 | |
else | |
printf "p " | |
set $_pf_flag = 0 | |
end | |
# CF (carry) flag | |
if ($eflags & 1) | |
printf "C " | |
set $_cf_flag = 1 | |
else | |
printf "c " | |
set $_cf_flag = 0 | |
end | |
printf "\n" | |
end | |
document flags | |
Print flags register. | |
end | |
define eflags | |
printf " OF <%d> DF <%d> IF <%d> TF <%d>",\ | |
(($eflags >> 0xB) & 1), (($eflags >> 0xA) & 1), \ | |
(($eflags >> 9) & 1), (($eflags >> 8) & 1) | |
printf " SF <%d> ZF <%d> AF <%d> PF <%d> CF <%d>\n",\ | |
(($eflags >> 7) & 1), (($eflags >> 6) & 1),\ | |
(($eflags >> 4) & 1), (($eflags >> 2) & 1), ($eflags & 1) | |
printf " ID <%d> VIP <%d> VIF <%d> AC <%d>",\ | |
(($eflags >> 0x15) & 1), (($eflags >> 0x14) & 1), \ | |
(($eflags >> 0x13) & 1), (($eflags >> 0x12) & 1) | |
printf " VM <%d> RF <%d> NT <%d> IOPL <%d>\n",\ | |
(($eflags >> 0x11) & 1), (($eflags >> 0x10) & 1),\ | |
(($eflags >> 0xE) & 1), (($eflags >> 0xC) & 3) | |
end | |
document eflags | |
Print eflags register. | |
end | |
define reg | |
if ($64BITS == 1) | |
# 64bits stuff | |
printf " " | |
echo \033[32m | |
printf "RAX:" | |
echo \033[0m | |
printf " 0x%016lX ", $rax | |
echo \033[32m | |
printf "RBX:" | |
echo \033[0m | |
printf " 0x%016lX ", $rbx | |
echo \033[32m | |
printf "RCX:" | |
echo \033[0m | |
printf " 0x%016lX ", $rcx | |
echo \033[32m | |
printf "RDX:" | |
echo \033[0m | |
printf " 0x%016lX ", $rdx | |
echo \033[1m\033[4m\033[31m | |
flags | |
echo \033[0m | |
printf " " | |
echo \033[32m | |
printf "RSI:" | |
echo \033[0m | |
printf " 0x%016lX ", $rsi | |
echo \033[32m | |
printf "RDI:" | |
echo \033[0m | |
printf " 0x%016lX ", $rdi | |
echo \033[32m | |
printf "RBP:" | |
echo \033[0m | |
printf " 0x%016lX ", $rbp | |
echo \033[32m | |
printf "RSP:" | |
echo \033[0m | |
printf " 0x%016lX ", $rsp | |
echo \033[32m | |
printf "RIP:" | |
echo \033[0m | |
printf " 0x%016lX\n ", $rip | |
echo \033[32m | |
printf "R8 :" | |
echo \033[0m | |
printf " 0x%016lX ", $r8 | |
echo \033[32m | |
printf "R9 :" | |
echo \033[0m | |
printf " 0x%016lX ", $r9 | |
echo \033[32m | |
printf "R10:" | |
echo \033[0m | |
printf " 0x%016lX ", $r10 | |
echo \033[32m | |
printf "R11:" | |
echo \033[0m | |
printf " 0x%016lX ", $r11 | |
echo \033[32m | |
printf "R12:" | |
echo \033[0m | |
printf " 0x%016lX\n ", $r12 | |
echo \033[32m | |
printf "R13:" | |
echo \033[0m | |
printf " 0x%016lX ", $r13 | |
echo \033[32m | |
printf "R14:" | |
echo \033[0m | |
printf " 0x%016lX ", $r14 | |
echo \033[32m | |
printf "R15:" | |
echo \033[0m | |
printf " 0x%016lX\n ", $r15 | |
echo \033[32m | |
printf "CS:" | |
echo \033[0m | |
printf " %04X ", $cs | |
echo \033[32m | |
printf "DS:" | |
echo \033[0m | |
printf " %04X ", $ds | |
echo \033[32m | |
printf "ES:" | |
echo \033[0m | |
printf " %04X ", $es | |
echo \033[32m | |
printf "FS:" | |
echo \033[0m | |
printf " %04X ", $fs | |
echo \033[32m | |
printf "GS:" | |
echo \033[0m | |
printf " %04X ", $gs | |
echo \033[32m | |
printf "SS:" | |
echo \033[0m | |
printf " %04X", $ss | |
echo \033[0m | |
# 32bits stuff | |
else | |
printf " " | |
echo \033[32m | |
printf "EAX:" | |
echo \033[0m | |
printf " 0x%08X ", $eax | |
echo \033[32m | |
printf "EBX:" | |
echo \033[0m | |
printf " 0x%08X ", $ebx | |
echo \033[32m | |
printf "ECX:" | |
echo \033[0m | |
printf " 0x%08X ", $ecx | |
echo \033[32m | |
printf "EDX:" | |
echo \033[0m | |
printf " 0x%08X ", $edx | |
echo \033[1m\033[4m\033[31m | |
flags | |
echo \033[0m | |
printf " " | |
echo \033[32m | |
printf "ESI:" | |
echo \033[0m | |
printf " 0x%08X ", $esi | |
echo \033[32m | |
printf "EDI:" | |
echo \033[0m | |
printf " 0x%08X ", $edi | |
echo \033[32m | |
printf "EBP:" | |
echo \033[0m | |
printf " 0x%08X ", $ebp | |
echo \033[32m | |
printf "ESP:" | |
echo \033[0m | |
printf " 0x%08X ", $esp | |
echo \033[32m | |
printf "EIP:" | |
echo \033[0m | |
printf " 0x%08X\n ", $eip | |
echo \033[32m | |
printf "CS:" | |
echo \033[0m | |
printf " %04X ", $cs | |
echo \033[32m | |
printf "DS:" | |
echo \033[0m | |
printf " %04X ", $ds | |
echo \033[32m | |
printf "ES:" | |
echo \033[0m | |
printf " %04X ", $es | |
echo \033[32m | |
printf "FS:" | |
echo \033[0m | |
printf " %04X ", $fs | |
echo \033[32m | |
printf "GS:" | |
echo \033[0m | |
printf " %04X ", $gs | |
echo \033[32m | |
printf "SS:" | |
echo \033[0m | |
printf " %04X", $ss | |
echo \033[0m | |
end | |
# call smallregisters | |
smallregisters | |
# display conditional jump routine | |
if ($64BITS == 1) | |
printf "\t\t\t\t" | |
end | |
dumpjump | |
printf "\n" | |
end | |
document reg | |
Print CPU registers. | |
end | |
define smallregisters | |
if ($64BITS == 1) | |
#64bits stuff | |
# from rax | |
set $eax = $rax & 0xffffffff | |
set $ax = $rax & 0xffff | |
set $al = $ax & 0xff | |
set $ah = $ax >> 8 | |
# from rbx | |
set $bx = $rbx & 0xffff | |
set $bl = $bx & 0xff | |
set $bh = $bx >> 8 | |
# from rcx | |
set $ecx = $rcx & 0xffffffff | |
set $cx = $rcx & 0xffff | |
set $cl = $cx & 0xff | |
set $ch = $cx >> 8 | |
# from rdx | |
set $edx = $rdx & 0xffffffff | |
set $dx = $rdx & 0xffff | |
set $dl = $dx & 0xff | |
set $dh = $dx >> 8 | |
# from rsi | |
set $esi = $rsi & 0xffffffff | |
set $si = $rsi & 0xffff | |
# from rdi | |
set $edi = $rdi & 0xffffffff | |
set $di = $rdi & 0xffff | |
#32 bits stuff | |
else | |
# from eax | |
set $ax = $eax & 0xffff | |
set $al = $ax & 0xff | |
set $ah = $ax >> 8 | |
# from ebx | |
set $bx = $ebx & 0xffff | |
set $bl = $bx & 0xff | |
set $bh = $bx >> 8 | |
# from ecx | |
set $cx = $ecx & 0xffff | |
set $cl = $cx & 0xff | |
set $ch = $cx >> 8 | |
# from edx | |
set $dx = $edx & 0xffff | |
set $dl = $dx & 0xff | |
set $dh = $dx >> 8 | |
# from esi | |
set $si = $esi & 0xffff | |
# from edi | |
set $di = $edi & 0xffff | |
end | |
end | |
document smallregisters | |
Create the 16 and 8 bit cpu registers (gdb doesn't have them by default) | |
And 32bits if we are dealing with 64bits binaries | |
end | |
define func | |
if $argc == 0 | |
info functions | |
end | |
if $argc == 1 | |
info functions $arg0 | |
end | |
if $argc > 1 | |
help func | |
end | |
end | |
document func | |
Print all function names in target, or those matching REGEXP. | |
Usage: func <REGEXP> | |
end | |
define var | |
if $argc == 0 | |
info variables | |
end | |
if $argc == 1 | |
info variables $arg0 | |
end | |
if $argc > 1 | |
help var | |
end | |
end | |
document var | |
Print all global and static variable names (symbols), or those matching REGEXP. | |
Usage: var <REGEXP> | |
end | |
define lib | |
info sharedlibrary | |
end | |
document lib | |
Print shared libraries linked to target. | |
end | |
define sig | |
if $argc == 0 | |
info signals | |
end | |
if $argc == 1 | |
info signals $arg0 | |
end | |
if $argc > 1 | |
help sig | |
end | |
end | |
document sig | |
Print what debugger does when program gets various signals. | |
Specify a SIGNAL as argument to print info on that signal only. | |
Usage: sig <SIGNAL> | |
end | |
define threads | |
info threads | |
end | |
document threads | |
Print threads in target. | |
end | |
define dis | |
if $argc == 0 | |
disassemble | |
end | |
if $argc == 1 | |
disassemble $arg0 | |
end | |
if $argc == 2 | |
disassemble $arg0 $arg1 | |
end | |
if $argc > 2 | |
help dis | |
end | |
end | |
document dis | |
Disassemble a specified section of memory. | |
Default is to disassemble the function surrounding the PC (program counter) | |
of selected frame. With one argument, ADDR1, the function surrounding this | |
address is dumped. Two arguments are taken as a range of memory to dump. | |
Usage: dis <ADDR1> <ADDR2> | |
end | |
# __________hex/ascii dump an address_________ | |
define ascii_char | |
if $argc != 1 | |
help ascii_char | |
else | |
# thanks elaine :) | |
set $_c = *(unsigned char *)($arg0) | |
if ($_c < 0x20 || $_c > 0x7E) | |
printf "." | |
else | |
printf "%c", $_c | |
end | |
end | |
end | |
document ascii_char | |
Print ASCII value of byte at address ADDR. | |
Print "." if the value is unprintable. | |
Usage: ascii_char ADDR | |
end | |
define hex_quad | |
if $argc != 1 | |
help hex_quad | |
else | |
printf "%02X %02X %02X %02X %02X %02X %02X %02X", \ | |
*(unsigned char*)($arg0), *(unsigned char*)($arg0 + 1), \ | |
*(unsigned char*)($arg0 + 2), *(unsigned char*)($arg0 + 3), \ | |
*(unsigned char*)($arg0 + 4), *(unsigned char*)($arg0 + 5), \ | |
*(unsigned char*)($arg0 + 6), *(unsigned char*)($arg0 + 7) | |
end | |
end | |
document hex_quad | |
Print eight hexadecimal bytes starting at address ADDR. | |
Usage: hex_quad ADDR | |
end | |
define hexdump | |
if $argc != 1 | |
help hexdump | |
else | |
echo \033[1m | |
if ($64BITS == 1) | |
printf "0x%016lX : ", $arg0 | |
else | |
printf "0x%08X : ", $arg0 | |
end | |
echo \033[0m | |
hex_quad $arg0 | |
echo \033[1m | |
printf " - " | |
echo \033[0m | |
hex_quad $arg0+8 | |
printf " " | |
echo \033[1m | |
ascii_char $arg0+0x0 | |
ascii_char $arg0+0x1 | |
ascii_char $arg0+0x2 | |
ascii_char $arg0+0x3 | |
ascii_char $arg0+0x4 | |
ascii_char $arg0+0x5 | |
ascii_char $arg0+0x6 | |
ascii_char $arg0+0x7 | |
ascii_char $arg0+0x8 | |
ascii_char $arg0+0x9 | |
ascii_char $arg0+0xA | |
ascii_char $arg0+0xB | |
ascii_char $arg0+0xC | |
ascii_char $arg0+0xD | |
ascii_char $arg0+0xE | |
ascii_char $arg0+0xF | |
echo \033[0m | |
printf "\n" | |
end | |
end | |
document hexdump | |
Display a 16-byte hex/ASCII dump of memory at address ADDR. | |
Usage: hexdump ADDR | |
end | |
# _______________data window__________________ | |
define ddump | |
if $argc != 1 | |
help ddump | |
else | |
echo \033[34m | |
if ($64BITS == 1) | |
printf "[0x%04X:0x%016lX]", $ds, $data_addr | |
else | |
printf "[0x%04X:0x%08X]", $ds, $data_addr | |
end | |
echo \033[34m | |
printf "------------------------" | |
printf "-------------------------------" | |
if ($64BITS == 1) | |
printf "-------------------------------------" | |
end | |
echo \033[1;34m | |
printf "[data]\n" | |
echo \033[0m | |
set $_count = 0 | |
while ($_count < $arg0) | |
set $_i = ($_count * 0x10) | |
hexdump $data_addr+$_i | |
set $_count++ | |
end | |
end | |
end | |
document ddump | |
Display NUM lines of hexdump for address in $data_addr global variable. | |
Usage: ddump NUM | |
end | |
define dd | |
if $argc != 1 | |
help dd | |
else | |
if ((($arg0 >> 0x18) == 0x40) || (($arg0 >> 0x18) == 0x08) || (($arg0 >> 0x18) == 0xBF)) | |
set $data_addr = $arg0 | |
ddump 0x10 | |
else | |
printf "Invalid address: %08X\n", $arg0 | |
end | |
end | |
end | |
document dd | |
Display 16 lines of a hex dump of address starting at ADDR. | |
Usage: dd ADDR | |
end | |
define datawin | |
if ($64BITS == 1) | |
if ((($rsi >> 0x18) == 0x40) || (($rsi >> 0x18) == 0x08) || (($rsi >> 0x18) == 0xBF)) | |
set $data_addr = $rsi | |
else | |
if ((($rdi >> 0x18) == 0x40) || (($rdi >> 0x18) == 0x08) || (($rdi >> 0x18) == 0xBF)) | |
set $data_addr = $rdi | |
else | |
if ((($rax >> 0x18) == 0x40) || (($rax >> 0x18) == 0x08) || (($rax >> 0x18) == 0xBF)) | |
set $data_addr = $rax | |
else | |
set $data_addr = $rsp | |
end | |
end | |
end | |
else | |
if ((($esi >> 0x18) == 0x40) || (($esi >> 0x18) == 0x08) || (($esi >> 0x18) == 0xBF)) | |
set $data_addr = $esi | |
else | |
if ((($edi >> 0x18) == 0x40) || (($edi >> 0x18) == 0x08) || (($edi >> 0x18) == 0xBF)) | |
set $data_addr = $edi | |
else | |
if ((($eax >> 0x18) == 0x40) || (($eax >> 0x18) == 0x08) || (($eax >> 0x18) == 0xBF)) | |
set $data_addr = $eax | |
else | |
set $data_addr = $esp | |
end | |
end | |
end | |
end | |
ddump $CONTEXTSIZE_DATA | |
end | |
document datawin | |
Display valid address from one register in data window. | |
Registers to choose are: esi, edi, eax, or esp. | |
end | |
################################ | |
##### ALERT ALERT ALERT ######## | |
################################ | |
# Huge mess going here :) HAHA # | |
################################ | |
define dumpjump | |
## grab the first two bytes from the instruction so we can determine the jump instruction | |
set $_byte1 = *(unsigned char *)$pc | |
set $_byte2 = *(unsigned char *)($pc+1) | |
## and now check what kind of jump we have (in case it's a jump instruction) | |
## I changed the flags routine to save the flag into a variable, so we don't need to repeat the process :) (search for "define flags") | |
## opcode 0x77: JA, JNBE (jump if CF=0 and ZF=0) | |
## opcode 0x0F87: JNBE, JA | |
if ( ($_byte1 == 0x77) || ($_byte1 == 0x0F && $_byte2 == 0x87) ) | |
# cf=0 and zf=0 | |
if ($_cf_flag == 0 && $_zf_flag == 0) | |
echo \033[31m | |
printf " Jump is taken (c=0 and z=0)" | |
else | |
# cf != 0 or zf != 0 | |
echo \033[31m | |
printf " Jump is NOT taken (c!=0 or z!=0)" | |
end | |
end | |
## opcode 0x73: JAE, JNB, JNC (jump if CF=0) | |
## opcode 0x0F83: JNC, JNB, JAE (jump if CF=0) | |
if ( ($_byte1 == 0x73) || ($_byte1 == 0x0F && $_byte2 == 0x83) ) | |
# cf=0 | |
if ($_cf_flag == 0) | |
echo \033[31m | |
printf " Jump is taken (c=0)" | |
else | |
# cf != 0 | |
echo \033[31m | |
printf " Jump is NOT taken (c!=0)" | |
end | |
end | |
## opcode 0x72: JB, JC, JNAE (jump if CF=1) | |
## opcode 0x0F82: JNAE, JB, JC | |
if ( ($_byte1 == 0x72) || ($_byte1 == 0x0F && $_byte2 == 0x82) ) | |
# cf=1 | |
if ($_cf_flag == 1) | |
echo \033[31m | |
printf " Jump is taken (c=1)" | |
else | |
# cf != 1 | |
echo \033[31m | |
printf " Jump is NOT taken (c!=1)" | |
end | |
end | |
## opcode 0x76: JBE, JNA (jump if CF=1 or ZF=1) | |
## opcode 0x0F86: JBE, JNA | |
if ( ($_byte1 == 0x76) || ($_byte1 == 0x0F && $_byte2 == 0x86) ) | |
# cf=1 or zf=1 | |
if (($_cf_flag == 1) || ($_zf_flag == 1)) | |
echo \033[31m | |
printf " Jump is taken (c=1 or z=1)" | |
else | |
# cf != 1 or zf != 1 | |
echo \033[31m | |
printf " Jump is NOT taken (c!=1 or z!=1)" | |
end | |
end | |
## opcode 0xE3: JCXZ, JECXZ, JRCXZ (jump if CX=0 or ECX=0 or RCX=0) | |
if ($_byte1 == 0xE3) | |
# cx=0 or ecx=0 | |
if (($ecx == 0) || ($cx == 0)) | |
echo \033[31m | |
printf " Jump is taken (cx=0 or ecx=0)" | |
else | |
# | |
echo \033[31m | |
printf " Jump is NOT taken (cx!=0 or ecx!=0)" | |
end | |
end | |
## opcode 0x74: JE, JZ (jump if ZF=1) | |
## opcode 0x0F84: JZ, JE, JZ (jump if ZF=1) | |
if ( ($_byte1 == 0x74) || ($_byte1 == 0x0F && $_byte2 == 0x84) ) | |
# ZF = 1 | |
if ($_zf_flag == 1) | |
echo \033[31m | |
printf " Jump is taken (z=1)" | |
else | |
# ZF = 0 | |
echo \033[31m | |
printf " Jump is NOT taken (z!=1)" | |
end | |
end | |
## opcode 0x7F: JG, JNLE (jump if ZF=0 and SF=OF) | |
## opcode 0x0F8F: JNLE, JG (jump if ZF=0 and SF=OF) | |
if ( ($_byte1 == 0x7F) || ($_byte1 == 0x0F && $_byte2 == 0x8F) ) | |
# zf = 0 and sf = of | |
if (($_zf_flag == 0) && ($_sf_flag == $_of_flag)) | |
echo \033[31m | |
printf " Jump is taken (z=0 and s=o)" | |
else | |
# | |
echo \033[31m | |
printf " Jump is NOT taken (z!=0 or s!=o)" | |
end | |
end | |
## opcode 0x7D: JGE, JNL (jump if SF=OF) | |
## opcode 0x0F8D: JNL, JGE (jump if SF=OF) | |
if ( ($_byte1 == 0x7D) || ($_byte1 == 0x0F && $_byte2 == 0x8D) ) | |
# sf = of | |
if ($_sf_flag == $_of_flag) | |
echo \033[31m | |
printf " Jump is taken (s=o)" | |
else | |
# | |
echo \033[31m | |
printf " Jump is NOT taken (s!=o)" | |
end | |
end | |
## opcode: 0x7C: JL, JNGE (jump if SF != OF) | |
## opcode: 0x0F8C: JNGE, JL (jump if SF != OF) | |
if ( ($_byte1 == 0x7C) || ($_byte1 == 0x0F && $_byte2 == 0x8C) ) | |
# sf != of | |
if ($_sf_flag != $_of_flag) | |
echo \033[31m | |
printf " Jump is taken (s!=o)" | |
else | |
# | |
echo \033[31m | |
printf " Jump is NOT taken (s=o)" | |
end | |
end | |
## opcode 0x7E: JLE, JNG (jump if ZF = 1 or SF != OF) | |
## opcode 0x0F8E: JNG, JLE (jump if ZF = 1 or SF != OF) | |
if ( ($_byte1 == 0x7E) || ($_byte1 == 0x0F && $_byte2 == 0x8E) ) | |
# zf = 1 or sf != of | |
if (($_zf_flag == 1) || ($_sf_flag != $_of_flag)) | |
echo \033[31m | |
printf " Jump is taken (zf=1 or sf!=of)" | |
else | |
# | |
echo \033[31m | |
printf " Jump is NOT taken (zf!=1 or sf=of)" | |
end | |
end | |
## opcode 0x75: JNE, JNZ (jump if ZF = 0) | |
## opcode 0x0F85: JNE, JNZ (jump if ZF = 0) | |
if ( ($_byte1 == 0x75) || ($_byte1 == 0x0F && $_byte2 == 0x85) ) | |
# ZF = 0 | |
if ($_zf_flag == 0) | |
echo \033[31m | |
printf " Jump is taken (z=0)" | |
else | |
# ZF = 1 | |
echo \033[31m | |
printf " Jump is NOT taken (z!=0)" | |
end | |
end | |
## opcode 0x71: JNO (OF = 0) | |
## opcode 0x0F81: JNO (OF = 0) | |
if ( ($_byte1 == 0x71) || ($_byte1 == 0x0F && $_byte2 == 0x81) ) | |
# OF = 0 | |
if ($_of_flag == 0) | |
echo \033[31m | |
printf " Jump is taken (o=0)" | |
else | |
# OF != 0 | |
echo \033[31m | |
printf " Jump is NOT taken (o!=0)" | |
end | |
end | |
## opcode 0x7B: JNP, JPO (jump if PF = 0) | |
## opcode 0x0F8B: JPO (jump if PF = 0) | |
if ( ($_byte1 == 0x7B) || ($_byte1 == 0x0F && $_byte2 == 0x8B) ) | |
# PF = 0 | |
if ($_pf_flag == 0) | |
echo \033[31m | |
printf " Jump is NOT taken (p=0)" | |
else | |
# PF != 0 | |
echo \033[31m | |
printf " Jump is taken (p!=0)" | |
end | |
end | |
## opcode 0x79: JNS (jump if SF = 0) | |
## opcode 0x0F89: JNS (jump if SF = 0) | |
if ( ($_byte1 == 0x79) || ($_byte1 == 0x0F && $_byte2 == 0x89) ) | |
# SF = 0 | |
if ($_sf_flag == 0) | |
echo \033[31m | |
printf " Jump is taken (s=0)" | |
else | |
# SF != 0 | |
echo \033[31m | |
printf " Jump is NOT taken (s!=0)" | |
end | |
end | |
## opcode 0x70: JO (jump if OF=1) | |
## opcode 0x0F80: JO (jump if OF=1) | |
if ( ($_byte1 == 0x70) || ($_byte1 == 0x0F && $_byte2 == 0x80) ) | |
# OF = 1 | |
if ($_of_flag == 1) | |
echo \033[31m | |
printf " Jump is taken (o=1)" | |
else | |
# OF != 1 | |
echo \033[31m | |
printf " Jump is NOT taken (o!=1)" | |
end | |
end | |
## opcode 0x7A: JP, JPE (jump if PF=1) | |
## opcode 0x0F8A: JP, JPE (jump if PF=1) | |
if ( ($_byte1 == 0x7A) || ($_byte1 == 0x0F && $_byte2 == 0x8A) ) | |
# PF = 1 | |
if ($_pf_flag == 1) | |
echo \033[31m | |
printf " Jump is taken (p=1)" | |
else | |
# PF = 0 | |
echo \033[31m | |
printf " Jump is NOT taken (p!=1)" | |
end | |
end | |
## opcode 0x78: JS (jump if SF=1) | |
## opcode 0x0F88: JS (jump if SF=1) | |
if ( ($_byte1 == 0x78) || ($_byte1 == 0x0F && $_byte2 == 0x88) ) | |
# SF = 1 | |
if ($_sf_flag == 1) | |
echo \033[31m | |
printf " Jump is taken (s=1)" | |
else | |
# SF != 1 | |
echo \033[31m | |
printf " Jump is NOT taken (s!=1)" | |
end | |
end | |
# end of dumpjump function | |
end | |
document dumpjump | |
Display if conditional jump will be taken or not | |
end | |
# _______________process context______________ | |
# initialize variable | |
set $displayobjectivec = 0 | |
define context | |
echo \033[34m | |
if $SHOWCPUREGISTERS == 1 | |
printf "----------------------------------------" | |
printf "----------------------------------" | |
if ($64BITS == 1) | |
printf "---------------------------------------------" | |
end | |
echo \033[34m\033[1m | |
printf "[regs]\n" | |
echo \033[0m | |
reg | |
echo \033[36m | |
end | |
if $SHOWSTACK == 1 | |
echo \033[34m | |
if ($64BITS == 1) | |
printf "[0x%04X:0x%016lX]", $ss, $rsp | |
else | |
printf "[0x%04X:0x%08X]", $ss, $esp | |
end | |
echo \033[34m | |
printf "-------------------------" | |
printf "-----------------------------" | |
if ($64BITS == 1) | |
printf "-------------------------------------" | |
end | |
echo \033[34m\033[1m | |
printf "[stack]\n" | |
echo \033[0m | |
set $context_i = $CONTEXTSIZE_STACK | |
while ($context_i > 0) | |
set $context_t = $sp + 0x10 * ($context_i - 1) | |
hexdump $context_t | |
set $context_i-- | |
end | |
end | |
# show the objective C message being passed to msgSend | |
if $SHOWOBJECTIVEC == 1 | |
#FIXME64 | |
# What a piece of crap that's going on here :) | |
# detect if it's the correct opcode we are searching for | |
set $__byte1 = *(unsigned char *)$pc | |
set $__byte = *(int *)$pc | |
# | |
if ($__byte == 0x4244489) | |
set $objectivec = $eax | |
set $displayobjectivec = 1 | |
end | |
# | |
if ($__byte == 0x4245489) | |
set $objectivec = $edx | |
set $displayobjectivec = 1 | |
end | |
# | |
if ($__byte == 0x4244c89) | |
set $objectivec = $edx | |
set $displayobjectivec = 1 | |
end | |
# and now display it or not (we have no interest in having the info displayed after the call) | |
if $__byte1 == 0xE8 | |
if $displayobjectivec == 1 | |
echo \033[34m | |
printf "--------------------------------------------------------------------" | |
if ($64BITS == 1) | |
printf "---------------------------------------------" | |
end | |
echo \033[34m\033[1m | |
printf "[ObjectiveC]\n" | |
echo \033[0m\033[30m | |
x/s $objectivec | |
end | |
set $displayobjectivec = 0 | |
end | |
if $displayobjectivec == 1 | |
echo \033[34m | |
printf "--------------------------------------------------------------------" | |
if ($64BITS == 1) | |
printf "---------------------------------------------" | |
end | |
echo \033[34m\033[1m | |
printf "[ObjectiveC]\n" | |
echo \033[0m\033[30m | |
x/s $objectivec | |
end | |
end | |
echo \033[0m | |
# and this is the end of this little crap | |
if $SHOWDATAWIN == 1 | |
datawin | |
end | |
echo \033[34m | |
printf "--------------------------------------------------------------------------" | |
if ($64BITS == 1) | |
printf "---------------------------------------------" | |
end | |
echo \033[34m\033[1m | |
printf "[code]\n" | |
echo \033[0m | |
set $context_i = $CONTEXTSIZE_CODE | |
if($context_i > 0) | |
x /i $pc | |
set $context_i-- | |
end | |
while ($context_i > 0) | |
x /i | |
set $context_i-- | |
end | |
echo \033[34m | |
printf "----------------------------------------" | |
printf "----------------------------------------" | |
if ($64BITS == 1) | |
printf "---------------------------------------------\n" | |
else | |
printf "\n" | |
end | |
echo \033[0m | |
end | |
document context | |
Print context window, i.e. regs, stack, ds:esi and disassemble cs:eip. | |
end | |
define context-on | |
set $SHOW_CONTEXT = 1 | |
printf "Displaying of context is now ON\n" | |
end | |
document context-on | |
Enable display of context on every program break. | |
end | |
define context-off | |
set $SHOW_CONTEXT = 0 | |
printf "Displaying of context is now OFF\n" | |
end | |
document context-off | |
Disable display of context on every program break. | |
end | |
# _______________process control______________ | |
define n | |
if $argc == 0 | |
nexti | |
end | |
if $argc == 1 | |
nexti $arg0 | |
end | |
if $argc > 1 | |
help n | |
end | |
end | |
document n | |
Step one instruction, but proceed through subroutine calls. | |
If NUM is given, then repeat it NUM times or till program stops. | |
This is alias for nexti. | |
Usage: n <NUM> | |
end | |
define go | |
if $argc == 0 | |
stepi | |
end | |
if $argc == 1 | |
stepi $arg0 | |
end | |
if $argc > 1 | |
help go | |
end | |
end | |
document go | |
Step one instruction exactly. | |
If NUM is given, then repeat it NUM times or till program stops. | |
This is alias for stepi. | |
Usage: go <NUM> | |
end | |
define pret | |
finish | |
end | |
document pret | |
Execute until selected stack frame returns (step out of current call). | |
Upon return, the value returned is printed and put in the value history. | |
end | |
define init | |
set $SHOW_NEST_INSN = 0 | |
tbreak _init | |
r | |
end | |
document init | |
Run program and break on _init(). | |
end | |
define start | |
set $SHOW_NEST_INSN = 0 | |
tbreak _start | |
r | |
end | |
document start | |
Run program and break on _start(). | |
end | |
define sstart | |
set $SHOW_NEST_INSN = 0 | |
tbreak __libc_start_main | |
r | |
end | |
document sstart | |
Run program and break on __libc_start_main(). | |
Useful for stripped executables. | |
end | |
define main | |
set $SHOW_NEST_INSN = 0 | |
tbreak main | |
r | |
end | |
document main | |
Run program and break on main(). | |
end | |
# FIXME64 | |
#### WARNING ! WARNING !! | |
#### More more messy stuff starting !!! | |
#### I was thinking about how to do this and then it ocurred me that it could be as simple as this ! :) | |
define stepo | |
## we know that an opcode starting by 0xE8 has a fixed length | |
## for the 0xFF opcodes, we can enumerate what is possible to have | |
# first we grab the first 3 bytes from the current program counter | |
set $_byte1 = *(unsigned char *)$pc | |
set $_byte2 = *(unsigned char *)($pc+1) | |
set $_byte3 = *(unsigned char *)($pc+2) | |
# and start the fun | |
# if it's a 0xE8 opcode, the total instruction size will be 5 bytes | |
# so we can simply calculate the next address and use a temporary breakpoint ! Voila :) | |
set $_nextaddress = 0 | |
# this one is the must useful for us !!! | |
if ($_byte1 == 0xE8) | |
set $_nextaddress = $pc + 0x5 | |
else | |
# just other cases we might be interested in... maybe this should be removed since the 0xE8 opcode is the one we will use more | |
# this is a big fucking mess and can be improved for sure :) I don't like the way it is ehehehe | |
if ($_byte1 == 0xFF) | |
# call *%eax (0xFFD0) || call *%edx (0xFFD2) || call *(%ecx) (0xFFD1) || call (%eax) (0xFF10) || call *%esi (0xFFD6) || call *%ebx (0xFFD3) | |
if ($_byte2 == 0xD0 || $_byte2 == 0xD1 || $_byte2 == 0xD2 || $_byte2 == 0xD3 || $_byte2 == 0xD6 || $_byte2 == 0x10 ) | |
set $_nextaddress = $pc + 0x2 | |
end | |
# call *0x??(%ebp) (0xFF55??) || call *0x??(%esi) (0xFF56??) || call *0x??(%edi) (0xFF5F??) || call *0x??(%ebx) | |
# call *0x??(%edx) (0xFF52??) || call *0x??(%ecx) (0xFF51??) || call *0x??(%edi) (0xFF57??) || call *0x??(%eax) (0xFF50??) | |
if ($_byte2 == 0x55 || $_byte2 == 0x56 || $_byte2 == 0x5F || $_byte2 == 0x53 || $_byte2 == 0x52 || $_byte2 == 0x51 || $_byte2 == 0x57 || $_byte2 == 0x50) | |
set $_nextaddress = $pc + 0x3 | |
end | |
# call *0x????????(%ebx) (0xFF93????????) || | |
if ($_byte2 == 0x93 || $_byte2 == 0x94 || $_byte2 == 0x90 || $_byte2 == 0x92) | |
set $_nextaddress = $pc + 6 | |
end | |
# call *0x????????(%ebx,%eax,4) (0xFF94??????????) | |
if ($_byte2 == 0x94) | |
set $_nextaddress = $pc + 7 | |
end | |
end | |
end | |
# if we have found a call to bypass we set a temporary breakpoint on next instruction and continue | |
if ($_nextaddress != 0) | |
tbreak *$_nextaddress | |
continue | |
# else we just single step | |
else | |
nexti | |
end | |
# end of stepo function | |
end | |
document stepo | |
Step over calls (interesting to bypass the ones to msgSend) | |
This function will set a temporary breakpoint on next instruction after the call so the call will be bypassed | |
You can safely use it instead nexti or n since it will single step code if it's not a call instruction (unless you want to go into the call function) | |
end | |
# _______________eflags commands______________ | |
define cfc | |
if ($eflags & 1) | |
set $eflags = $eflags&~0x1 | |
else | |
set $eflags = $eflags|0x1 | |
end | |
end | |
document cfc | |
Change Carry Flag. | |
end | |
define cfp | |
if (($eflags >> 2) & 1) | |
set $eflags = $eflags&~0x4 | |
else | |
set $eflags = $eflags|0x4 | |
end | |
end | |
document cfp | |
Change Parity Flag. | |
end | |
define cfa | |
if (($eflags >> 4) & 1) | |
set $eflags = $eflags&~0x10 | |
else | |
set $eflags = $eflags|0x10 | |
end | |
end | |
document cfa | |
Change Auxiliary Carry Flag. | |
end | |
define cfz | |
if (($eflags >> 6) & 1) | |
set $eflags = $eflags&~0x40 | |
else | |
set $eflags = $eflags|0x40 | |
end | |
end | |
document cfz | |
Change Zero Flag. | |
end | |
define cfs | |
if (($eflags >> 7) & 1) | |
set $eflags = $eflags&~0x80 | |
else | |
set $eflags = $eflags|0x80 | |
end | |
end | |
document cfs | |
Change Sign Flag. | |
end | |
define cft | |
if (($eflags >>8) & 1) | |
set $eflags = $eflags&~0x100 | |
else | |
set $eflags = $eflags|0x100 | |
end | |
end | |
document cft | |
Change Trap Flag. | |
end | |
define cfi | |
if (($eflags >> 9) & 1) | |
set $eflags = $eflags&~0x200 | |
else | |
set $eflags = $eflags|0x200 | |
end | |
end | |
document cfi | |
Change Interrupt Flag. | |
Only privileged applications (usually the OS kernel) may modify IF. | |
This only applies to protected mode (real mode code may always modify IF). | |
end | |
define cfd | |
if (($eflags >>0xA) & 1) | |
set $eflags = $eflags&~0x400 | |
else | |
set $eflags = $eflags|0x400 | |
end | |
end | |
document cfd | |
Change Direction Flag. | |
end | |
define cfo | |
if (($eflags >> 0xB) & 1) | |
set $eflags = $eflags&~0x800 | |
else | |
set $eflags = $eflags|0x800 | |
end | |
end | |
document cfo | |
Change Overflow Flag. | |
end | |
# ____________________patch___________________ | |
define nop | |
if ($argc > 2 || $argc == 0) | |
help nop | |
end | |
if ($argc == 1) | |
set *(unsigned char *)$arg0 = 0x90 | |
else | |
set $addr = $arg0 | |
while ($addr < $arg1) | |
set *(unsigned char *)$addr = 0x90 | |
set $addr = $addr + 1 | |
end | |
end | |
end | |
document nop | |
Usage: nop ADDR1 [ADDR2] | |
Patch a single byte at address ADDR1, or a series of bytes between ADDR1 and ADDR2 to a NOP (0x90) instruction. | |
end | |
define null | |
if ( $argc >2 || $argc == 0) | |
help null | |
end | |
if ($argc == 1) | |
set *(unsigned char *)$arg0 = 0 | |
else | |
set $addr = $arg0 | |
while ($addr < $arg1) | |
set *(unsigned char *)$addr = 0 | |
set $addr = $addr +1 | |
end | |
end | |
end | |
document null | |
Usage: null ADDR1 [ADDR2] | |
Patch a single byte at address ADDR1 to NULL (0x00), or a series of bytes between ADDR1 and ADDR2. | |
end | |
define int3 | |
if $argc != 1 | |
help int3 | |
else | |
set *(unsigned char *)$arg0 = 0xCC | |
end | |
end | |
document int3 | |
Patch byte at address ADDR to an INT3 (0xCC) instruction. | |
Usage: int3 ADDR | |
end | |
# ____________________cflow___________________ | |
define print_insn_type | |
if $argc != 1 | |
help print_insn_type | |
else | |
if ($arg0 < 0 || $arg0 > 5) | |
printf "UNDEFINED/WRONG VALUE" | |
end | |
if ($arg0 == 0) | |
printf "UNKNOWN" | |
end | |
if ($arg0 == 1) | |
printf "JMP" | |
end | |
if ($arg0 == 2) | |
printf "JCC" | |
end | |
if ($arg0 == 3) | |
printf "CALL" | |
end | |
if ($arg0 == 4) | |
printf "RET" | |
end | |
if ($arg0 == 5) | |
printf "INT" | |
end | |
end | |
end | |
document print_insn_type | |
Print human-readable mnemonic for the instruction type (usually $INSN_TYPE). | |
Usage: print_insn_type INSN_TYPE_NUMBER | |
end | |
define get_insn_type | |
if $argc != 1 | |
help get_insn_type | |
else | |
set $INSN_TYPE = 0 | |
set $_byte1 = *(unsigned char *)$arg0 | |
if ($_byte1 == 0x9A || $_byte1 == 0xE8) | |
# "call" | |
set $INSN_TYPE = 3 | |
end | |
if ($_byte1 >= 0xE9 && $_byte1 <= 0xEB) | |
# "jmp" | |
set $INSN_TYPE = 1 | |
end | |
if ($_byte1 >= 0x70 && $_byte1 <= 0x7F) | |
# "jcc" | |
set $INSN_TYPE = 2 | |
end | |
if ($_byte1 >= 0xE0 && $_byte1 <= 0xE3 ) | |
# "jcc" | |
set $INSN_TYPE = 2 | |
end | |
if ($_byte1 == 0xC2 || $_byte1 == 0xC3 || $_byte1 == 0xCA || \ | |
$_byte1 == 0xCB || $_byte1 == 0xCF) | |
# "ret" | |
set $INSN_TYPE = 4 | |
end | |
if ($_byte1 >= 0xCC && $_byte1 <= 0xCE) | |
# "int" | |
set $INSN_TYPE = 5 | |
end | |
if ($_byte1 == 0x0F ) | |
# two-byte opcode | |
set $_byte2 = *(unsigned char *)($arg0 + 1) | |
if ($_byte2 >= 0x80 && $_byte2 <= 0x8F) | |
# "jcc" | |
set $INSN_TYPE = 2 | |
end | |
end | |
if ($_byte1 == 0xFF) | |
# opcode extension | |
set $_byte2 = *(unsigned char *)($arg0 + 1) | |
set $_opext = ($_byte2 & 0x38) | |
if ($_opext == 0x10 || $_opext == 0x18) | |
# "call" | |
set $INSN_TYPE = 3 | |
end | |
if ($_opext == 0x20 || $_opext == 0x28) | |
# "jmp" | |
set $INSN_TYPE = 1 | |
end | |
end | |
end | |
end | |
document get_insn_type | |
Recognize instruction type at address ADDR. | |
Take address ADDR and set the global $INSN_TYPE variable to | |
0, 1, 2, 3, 4, 5 if the instruction at that address is | |
unknown, a jump, a conditional jump, a call, a return, or an interrupt. | |
Usage: get_insn_type ADDR | |
end | |
define step_to_call | |
set $_saved_ctx = $SHOW_CONTEXT | |
set $SHOW_CONTEXT = 0 | |
set $SHOW_NEST_INSN = 0 | |
set logging file /dev/null | |
set logging redirect on | |
set logging on | |
set $_cont = 1 | |
while ($_cont > 0) | |
stepi | |
get_insn_type $pc | |
if ($INSN_TYPE == 3) | |
set $_cont = 0 | |
end | |
end | |
set logging off | |
if ($_saved_ctx > 0) | |
context | |
end | |
set $SHOW_CONTEXT = $_saved_ctx | |
set $SHOW_NEST_INSN = 0 | |
set logging file ~/gdb.txt | |
set logging redirect off | |
set logging on | |
printf "step_to_call command stopped at:\n " | |
x/i $pc | |
printf "\n" | |
set logging off | |
end | |
document step_to_call | |
Single step until a call instruction is found. | |
Stop before the call is taken. | |
Log is written into the file ~/gdb.txt. | |
end | |
define trace_calls | |
printf "Tracing...please wait...\n" | |
set $_saved_ctx = $SHOW_CONTEXT | |
set $SHOW_CONTEXT = 0 | |
set $SHOW_NEST_INSN = 0 | |
set $_nest = 1 | |
set listsize 0 | |
set logging overwrite on | |
set logging file ~/gdb_trace_calls.txt | |
set logging on | |
set logging off | |
set logging overwrite off | |
while ($_nest > 0) | |
get_insn_type $pc | |
# handle nesting | |
if ($INSN_TYPE == 3) | |
set $_nest = $_nest + 1 | |
else | |
if ($INSN_TYPE == 4) | |
set $_nest = $_nest - 1 | |
end | |
end | |
# if a call, print it | |
if ($INSN_TYPE == 3) | |
set logging file ~/gdb_trace_calls.txt | |
set logging redirect off | |
set logging on | |
set $x = $_nest - 2 | |
while ($x > 0) | |
printf "\t" | |
set $x = $x - 1 | |
end | |
x/i $pc | |
end | |
set logging off | |
set logging file /dev/null | |
set logging redirect on | |
set logging on | |
stepi | |
set logging redirect off | |
set logging off | |
end | |
set $SHOW_CONTEXT = $_saved_ctx | |
set $SHOW_NEST_INSN = 0 | |
printf "Done, check ~/gdb_trace_calls.txt\n" | |
end | |
document trace_calls | |
Create a runtime trace of the calls made by target. | |
Log overwrites(!) the file ~/gdb_trace_calls.txt. | |
end | |
define trace_run | |
printf "Tracing...please wait...\n" | |
set $_saved_ctx = $SHOW_CONTEXT | |
set $SHOW_CONTEXT = 0 | |
set $SHOW_NEST_INSN = 1 | |
set logging overwrite on | |
set logging file ~/gdb_trace_run.txt | |
set logging redirect on | |
set logging on | |
set $_nest = 1 | |
while ( $_nest > 0 ) | |
get_insn_type $pc | |
# jmp, jcc, or cll | |
if ($INSN_TYPE == 3) | |
set $_nest = $_nest + 1 | |
else | |
# ret | |
if ($INSN_TYPE == 4) | |
set $_nest = $_nest - 1 | |
end | |
end | |
stepi | |
end | |
printf "\n" | |
set $SHOW_CONTEXT = $_saved_ctx | |
set $SHOW_NEST_INSN = 0 | |
set logging redirect off | |
set logging off | |
# clean up trace file | |
shell grep -v ' at ' ~/gdb_trace_run.txt > ~/gdb_trace_run.1 | |
shell grep -v ' in ' ~/gdb_trace_run.1 > ~/gdb_trace_run.txt | |
shell rm -f ~/gdb_trace_run.1 | |
printf "Done, check ~/gdb_trace_run.txt\n" | |
end | |
document trace_run | |
Create a runtime trace of target. | |
Log overwrites(!) the file ~/gdb_trace_run.txt. | |
end | |
# ____________________misc____________________ | |
define hook-stop | |
# this makes 'context' be called at every BP/step | |
if ($SHOW_CONTEXT > 0) | |
context | |
end | |
if ($SHOW_NEST_INSN > 0) | |
set $x = $_nest | |
while ($x > 0) | |
printf "\t" | |
set $x = $x - 1 | |
end | |
end | |
end | |
document hook-stop | |
!!! FOR INTERNAL USE ONLY - DO NOT CALL !!! | |
end | |
# original by Tavis Ormandy (http://my.opera.com/taviso/blog/index.dml/tag/gdb) (great fix!) | |
# modified to work with Mac OS X by fG! | |
# seems nasm shipping with Mac OS X has problems accepting input from stdin or heredoc | |
# input is read into a variable and sent to a temporary file which nasm can read | |
define assemble | |
# dont enter routine again if user hits enter | |
dont-repeat | |
if ($argc) | |
if (*$arg0 = *$arg0) | |
# check if we have a valid address by dereferencing it, | |
# if we havnt, this will cause the routine to exit. | |
end | |
printf "Instructions will be written to %#x.\n", $arg0 | |
else | |
printf "Instructions will be written to stdout.\n" | |
end | |
printf "Type instructions, one per line." | |
echo \033[1m | |
printf " Do not forget to use NASM assembler syntax!\n" | |
echo \033[0m | |
printf "End with a line saying just \"end\".\n" | |
if ($argc) | |
# argument specified, assemble instructions into memory at address specified. | |
shell ASMOPCODE="$(while read -ep '>' r && test "$r" != end ; do echo -E "$r"; done)" ; FILENAME=$RANDOM; \ | |
echo -e "BITS 32\n$ASMOPCODE" >/tmp/$FILENAME ; /usr/bin/nasm -f bin -o /dev/stdout /tmp/$FILENAME | /usr/bin/hexdump -ve '1/1 "set *((unsigned char *) $arg0 + %#2_ax) = %#02x\n"' >/tmp/gdbassemble ; /bin/rm -f /tmp/$FILENAME | |
source /tmp/gdbassemble | |
# all done. clean the temporary file | |
shell /bin/rm -f /tmp/gdbassemble | |
else | |
# no argument, assemble instructions to stdout | |
shell ASMOPCODE="$(while read -ep '>' r && test "$r" != end ; do echo -E "$r"; done)" ; FILENAME=$RANDOM; \ | |
echo -e "BITS 32\n$ASMOPCODE" >/tmp/$FILENAME ; /usr/bin/nasm -f bin -o /dev/stdout /tmp/$FILENAME | /usr/bin/ndisasm -i -b32 /dev/stdin ; /bin/rm -f /tmp/$FILENAME | |
end | |
end | |
document assemble | |
Assemble instructions using nasm. | |
Type a line containing "end" to indicate the end. | |
If an address is specified, insert/modify instructions at that address. | |
If no address is specified, assembled instructions are printed to stdout. | |
Use the pseudo instruction "org ADDR" to set the base address. | |
end | |
define assemble_gas | |
printf "\nType code to assemble and hit Ctrl-D when finished.\n" | |
printf "You must use GNU assembler (AT&T) syntax.\n" | |
shell filename=$(mktemp); \ | |
binfilename=$(mktemp); \ | |
echo -e "Writing into: ${filename}\n"; \ | |
cat > $filename; echo ""; \ | |
as -o $binfilename < $filename; \ | |
objdump -d -j .text $binfilename; \ | |
rm -f $binfilename; \ | |
rm -f $filename; \ | |
echo -e "temporaly files deleted.\n" | |
end | |
document assemble_gas | |
Assemble instructions to binary opcodes. Uses GNU as and objdump. | |
Usage: assemble_gas | |
end | |
define dump_hexfile | |
dump ihex memory $arg0 $arg1 $arg2 | |
end | |
document dump_hexfile | |
Write a range of memory to a file in Intel ihex (hexdump) format. | |
The range is specified by ADDR1 and ADDR2 addresses. | |
Usage: dump_hexfile FILENAME ADDR1 ADDR2 | |
end | |
define dump_binfile | |
dump memory $arg0 $arg1 $arg2 | |
end | |
document dump_binfile | |
Write a range of memory to a binary file. | |
The range is specified by ADDR1 and ADDR2 addresses. | |
Usage: dump_binfile FILENAME ADDR1 ADDR2 | |
end | |
define cls | |
shell clear | |
end | |
document cls | |
Clear screen. | |
end | |
# _________________user tips_________________ | |
# The 'tips' command is used to provide tutorial-like info to the user | |
define tips | |
printf "Tip Topic Commands:\n" | |
printf "\ttip_display : Automatically display values on each break\n" | |
printf "\ttip_patch : Patching binaries\n" | |
printf "\ttip_strip : Dealing with stripped binaries\n" | |
printf "\ttip_syntax : AT&T vs Intel syntax\n" | |
end | |
document tips | |
Provide a list of tips from users on various topics. | |
end | |
define tip_patch | |
printf "\n" | |
printf " PATCHING MEMORY\n" | |
printf "Any address can be patched using the 'set' command:\n" | |
printf "\t`set ADDR = VALUE` \te.g. `set *0x8049D6E = 0x90`\n" | |
printf "\n" | |
printf " PATCHING BINARY FILES\n" | |
printf "Use `set write` in order to patch the target executable\n" | |
printf "directly, instead of just patching memory\n" | |
printf "\t`set write on` \t`set write off`\n" | |
printf "Note that this means any patches to the code or data segments\n" | |
printf "will be written to the executable file\n" | |
printf "When either of these commands has been issued,\n" | |
printf "the file must be reloaded.\n" | |
printf "\n" | |
end | |
document tip_patch | |
Tips on patching memory and binary files. | |
end | |
define tip_strip | |
printf "\n" | |
printf " STOPPING BINARIES AT ENTRY POINT\n" | |
printf "Stripped binaries have no symbols, and are therefore tough to\n" | |
printf "start automatically. To debug a stripped binary, use\n" | |
printf "\tinfo file\n" | |
printf "to get the entry point of the file\n" | |
printf "The first few lines of output will look like this:\n" | |
printf "\tSymbols from '/tmp/a.out'\n" | |
printf "\tLocal exec file:\n" | |
printf "\t `/tmp/a.out', file type elf32-i386.\n" | |
printf "\t Entry point: 0x80482e0\n" | |
printf "Use this entry point to set an entry point:\n" | |
printf "\t`tbreak *0x80482e0`\n" | |
printf "The breakpoint will delete itself after the program stops as\n" | |
printf "the entry point\n" | |
printf "\n" | |
end | |
document tip_strip | |
Tips on dealing with stripped binaries. | |
end | |
define tip_syntax | |
printf "\n" | |
printf "\t INTEL SYNTAX AT&T SYNTAX\n" | |
printf "\tmnemonic dest, src, imm mnemonic src, dest, imm\n" | |
printf "\t[base+index*scale+disp] disp(base, index, scale)\n" | |
printf "\tregister: eax register: %%eax\n" | |
printf "\timmediate: 0xFF immediate: $0xFF\n" | |
printf "\tdereference: [addr] dereference: addr(,1)\n" | |
printf "\tabsolute addr: addr absolute addr: *addr\n" | |
printf "\tbyte insn: mov byte ptr byte insn: movb\n" | |
printf "\tword insn: mov word ptr word insn: movw\n" | |
printf "\tdword insn: mov dword ptr dword insn: movd\n" | |
printf "\tfar call: call far far call: lcall\n" | |
printf "\tfar jump: jmp far far jump: ljmp\n" | |
printf "\n" | |
printf "Note that order of operands in reversed, and that AT&T syntax\n" | |
printf "requires that all instructions referencing memory operands \n" | |
printf "use an operand size suffix (b, w, d, q)\n" | |
printf "\n" | |
end | |
document tip_syntax | |
Summary of Intel and AT&T syntax differences. | |
end | |
define tip_display | |
printf "\n" | |
printf "Any expression can be set to automatically be displayed every time\n" | |
printf "the target stops. The commands for this are:\n" | |
printf "\t`display expr' : automatically display expression 'expr'\n" | |
printf "\t`display' : show all displayed expressions\n" | |
printf "\t`undisplay num' : turn off autodisplay for expression # 'num'\n" | |
printf "Examples:\n" | |
printf "\t`display/x *(int *)$esp` : print top of stack\n" | |
printf "\t`display/x *(int *)($ebp+8)` : print first parameter\n" | |
printf "\t`display (char *)$esi` : print source string\n" | |
printf "\t`display (char *)$edi` : print destination string\n" | |
printf "\n" | |
end | |
document tip_display | |
Tips on automatically displaying values when a program stops. | |
end | |
# bunch of semi-useless commands | |
# enable and disable shortcuts for stop-on-solib-events fantastic trick! | |
define enablesolib | |
set stop-on-solib-events 1 | |
end | |
document enablesolib | |
Shortcut to enable stop-on-solib-events trick! | |
end | |
define disablesolib | |
set stop-on-solib-events 0 | |
end | |
document disablesolib | |
Shortcut to disable stop-on-solib-events trick! | |
end | |
# enable commands for different displays | |
define enableobjectivec | |
set $SHOWOBJECTIVEC = 1 | |
end | |
document enableobjectivec | |
Enable display of objective-c information in the context window | |
end | |
define enablecpuregisters | |
set $SHOWCPUREGISTERS = 1 | |
end | |
document enablecpuregisters | |
Enable display of cpu registers in the context window | |
end | |
define enablestack | |
set $SHOWSTACK = 1 | |
end | |
document enablestack | |
Enable display of stack in the context window | |
end | |
define enabledatawin | |
set $SHOWDATAWIN = 1 | |
end | |
document enabledatawin | |
Enable display of data window in the context window | |
end | |
# disable commands for different displays | |
define disableobjectivec | |
set $SHOWOBJECTIVEC = 0 | |
end | |
document disableobjectivec | |
Disable display of objective-c information in the context window | |
end | |
define disablecpuregisters | |
set $SHOWCPUREGISTERS = 0 | |
end | |
document disablecpuregisters | |
Disable display of cpu registers in the context window | |
end | |
define disablestack | |
set $SHOWSTACK = 0 | |
end | |
document disablestack | |
Disable display of stack information in the context window | |
end | |
define disabledatawin | |
set $SHOWDATAWIN = 0 | |
end | |
document disabledatawin | |
Disable display of data window in the context window | |
end | |
define 32bits | |
set $64BITS = 0 | |
end | |
document 32bits | |
Set gdb to work with 32bits binaries | |
end | |
define 64bits | |
set $64BITS = 1 | |
end | |
document 64bits | |
Set gdb to work with 64bits binaries | |
end | |
#EOF |
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