rev/picker_3

This commit is contained in:
Oystein Kristoffer Tveit 2024-09-03 18:24:32 +02:00
parent 06a9be639c
commit fa2ecdc606
Signed by: oysteikt
GPG Key ID: 9F2F7D8250F35146
3 changed files with 229 additions and 0 deletions

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rev/picker_3/flag.txt Normal file
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# 0x70 0x69 0x63 0x6f 0x43 0x54 0x46 0x7b 0x37 0x68 0x31 0x35 0x5f 0x31 0x35 0x5f 0x77 0x68 0x34 0x37 0x5f 0x77 0x33 0x5f 0x67 0x33 0x37 0x5f 0x77 0x31 0x37 0x68 0x5f 0x75 0x35 0x33 0x72 0x35 0x5f 0x31 0x6e 0x5f 0x63 0x68 0x34 0x72 0x67 0x33 0x5f 0x61 0x31 0x38 0x36 0x66 0x39 0x61 0x63 0x7d
#
# (hex to ascii)
picoCTF{7h15_15_wh47_w3_g37_w17h_u53r5_1n_ch4rg3_a186f9ac}

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rev/picker_3/output.txt Normal file
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$ nc saturn.picoctf.net 58541
==> help
This program fixes vulnerabilities in its predecessor by limiting what
functions can be called to a table of predefined functions. This still puts
the user in charge, but prevents them from calling undesirable subroutines.
* Enter 'quit' to quit the program.
* Enter 'help' for this text.
* Enter 'reset' to reset the table.
* Enter '1' to execute the first function in the table.
* Enter '2' to execute the second function in the table.
* Enter '3' to execute the third function in the table.
* Enter '4' to execute the fourth function in the table.
Here's the current table:
1: print_table
2: read_variable
3: write_variable
4: getRandomNumber
==> 3
Please enter variable name to write: getRandomNumber
Please enter new value of variable: win
==> 4
0x70 0x69 0x63 0x6f 0x43 0x54 0x46 0x7b 0x37 0x68 0x31 0x35 0x5f 0x31 0x35 0x5f 0x77 0x68 0x34 0x37 0x5f 0x77 0x33 0x5f 0x67 0x33 0x37 0x5f 0x77 0x31 0x37 0x68 0x5f 0x75 0x35 0x33 0x72 0x35 0x5f 0x31 0x6e 0x5f 0x63 0x68 0x34 0x72 0x67 0x33 0x5f 0x61 0x31 0x38 0x36 0x66 0x39 0x61 0x63 0x7d

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rev/picker_3/picker-III.py Normal file
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import re
USER_ALIVE = True
FUNC_TABLE_SIZE = 4
FUNC_TABLE_ENTRY_SIZE = 32
CORRUPT_MESSAGE = 'Table corrupted. Try entering \'reset\' to fix it'
func_table = ''
def reset_table():
global func_table
# This table is formatted for easier viewing, but it is really one line
func_table = \
'''\
print_table \
read_variable \
write_variable \
getRandomNumber \
'''
def check_table():
global func_table
if( len(func_table) != FUNC_TABLE_ENTRY_SIZE * FUNC_TABLE_SIZE):
return False
return True
def get_func(n):
global func_table
# Check table for viability
if( not check_table() ):
print(CORRUPT_MESSAGE)
return
# Get function name from table
func_name = ''
func_name_offset = n * FUNC_TABLE_ENTRY_SIZE
for i in range(func_name_offset, func_name_offset+FUNC_TABLE_ENTRY_SIZE):
if( func_table[i] == ' '):
func_name = func_table[func_name_offset:i]
break
if( func_name == '' ):
func_name = func_table[func_name_offset:func_name_offset+FUNC_TABLE_ENTRY_SIZE]
return func_name
def print_table():
# Check table for viability
if( not check_table() ):
print(CORRUPT_MESSAGE)
return
for i in range(0, FUNC_TABLE_SIZE):
j = i + 1
print(str(j)+': ' + get_func(i))
def filter_var_name(var_name):
r = re.search('^[a-zA-Z_][a-zA-Z_0-9]*$', var_name)
if r:
return True
else:
return False
def read_variable():
var_name = input('Please enter variable name to read: ')
if( filter_var_name(var_name) ):
eval('print('+var_name+')')
else:
print('Illegal variable name')
def filter_value(value):
if ';' in value or '(' in value or ')' in value:
return False
else:
return True
def write_variable():
var_name = input('Please enter variable name to write: ')
if( filter_var_name(var_name) ):
value = input('Please enter new value of variable: ')
if( filter_value(value) ):
exec('global '+var_name+'; '+var_name+' = '+value)
else:
print('Illegal value')
else:
print('Illegal variable name')
def call_func(n):
"""
Calls the nth function in the function table.
Arguments:
n: The function to call. The first function is 0.
"""
# Check table for viability
if( not check_table() ):
print(CORRUPT_MESSAGE)
return
# Check n
if( n < 0 ):
print('n cannot be less than 0. Aborting...')
return
elif( n >= FUNC_TABLE_SIZE ):
print('n cannot be greater than or equal to the function table size of '+FUNC_TABLE_SIZE)
return
# Get function name from table
func_name = get_func(n)
# Run the function
eval(func_name+'()')
def dummy_func1():
print('in dummy_func1')
def dummy_func2():
print('in dummy_func2')
def dummy_func3():
print('in dummy_func3')
def dummy_func4():
print('in dummy_func4')
def getRandomNumber():
print(4) # Chosen by fair die roll.
# Guaranteed to be random.
# (See XKCD)
def win():
# This line will not work locally unless you create your own 'flag.txt' in
# the same directory as this script
flag = open('flag.txt', 'r').read()
#flag = flag[:-1]
flag = flag.strip()
str_flag = ''
for c in flag:
str_flag += str(hex(ord(c))) + ' '
print(str_flag)
def help_text():
print(
'''
This program fixes vulnerabilities in its predecessor by limiting what
functions can be called to a table of predefined functions. This still puts
the user in charge, but prevents them from calling undesirable subroutines.
* Enter 'quit' to quit the program.
* Enter 'help' for this text.
* Enter 'reset' to reset the table.
* Enter '1' to execute the first function in the table.
* Enter '2' to execute the second function in the table.
* Enter '3' to execute the third function in the table.
* Enter '4' to execute the fourth function in the table.
Here's the current table:
'''
)
print_table()
reset_table()
while(USER_ALIVE):
choice = input('==> ')
if( choice == 'quit' or choice == 'exit' or choice == 'q' ):
USER_ALIVE = False
elif( choice == 'help' or choice == '?' ):
help_text()
elif( choice == 'reset' ):
reset_table()
elif( choice == '1' ):
call_func(0)
elif( choice == '2' ):
call_func(1)
elif( choice == '3' ):
call_func(2)
elif( choice == '4' ):
call_func(3)
else:
print('Did not understand "'+choice+'" Have you tried "help"?')