NEED HELP WITH 2010 WALLET.DAT FILE

[JohanM]

If you have a 64 character (or 32 bytes) hex private key, convert it as follows to a WIF (which you can import):

Go to web site :
https://www.btcschools.net/tron/tron_tool_base58check_hex.php

fill in the Hex to Base58check 'Hex String:' box with the following
80 followed by the 64 character hex you found

example
0DF741E9FC092A9306881B6B07E93937D17A487062A99C1D2AD21B0C959EBCE4 is the hex string
fill in 800DF741E9FC092A9306881B6B07E93937D17A487062A99C1D2AD21B0C959EBCE4
and get:
Base58 String:   5HvSKY3noCN82Afh3tuagBS1XZwGzr81px2hLDm7B6Nt7RcVefx

This is the private key in WIF format.
Import this in any wallet.

NEVER type it into a blockchain explorer or anything, that will expose it.

[1714496503]

1714496503

[1714496503]

1714496503

[1714496503]

1714496503

[1714496503]

1714496503

[1714496503]

1714496503

[1714496503]

1714496503

[Sdlooking92020]

Pywallet requires ton of plugins, you dont want to be connecting to the internet while sandboxed just to get that script working properly, (just a millisecond can leak keys) to some hacker

i suggest first just searching for the berkeley database file headers, you can then use some software to extract the files. but first make a disk image using a ubuntu live usb or something.


go to gnome disks, (if using windows make sure the computer isnt hibernating and shut down correctly or not i dunno maybe that might overwrite some data if you do make 3 disk images i guess, do sudo gnome-disks if your noob and select disk and create an image of it on a m2ssd or something)

Code:

#!/usr/bin/env python
"""
searchbin.py -t PATTERN [FILE [FILE...]]
searchbin.py -p PATTERN [FILE [FILE...]]
searchbin.py -f FILE    [FILE [FILE...]]

examples:
./searchbin.py -t "hello" myfile.exe
Searches for the text "hello" in myfile.exe.

./searchbin.py -p "CCDDFF" myfile.exe
Searches for the hexidecimal pattern "CCDDFF" in myfile.exe.

./searchbin.py -f pattern.bin myfile.exe
Reads the file pattern.bin, and searches for a binary match within myfile.exe.

Many more capabilites, just run ./searchbin.py --help

+Features: no compiling, fast, small file, wild card matches, search multiple files of unlimited size, all operating systems
+Minimum Py2.7 required for argparse library
+keywords binary grep search seek find fast

license: BSD 2-Clause License, 2012, Sepero
license: http://www.opensource.org/licenses/BSD-2-Clause
"""

from __future__ import unicode_literals
import re
import signal
import sys

# Global variables.
CONTACT=("sepero 111 @ gmx . com\n"
		"https://bitbucket.org/Sepero/searchbin/issues/new\n"
		"http://seperohacker.blogspot.com/2012/04/binary-grep-program-searchbin.html")

VERSION="1.00"
DEBUG = False
STDOUT = sys.stdout

try:    # Python 3 modifications.
	STDIN = sys.stdin.buffer
except: # Python 2 modifications.
	STDIN = sys.stdin
	range = xrange


def _exit_error(code, option="", err=None):
	"""
	Error information is kept here for the purposes of easier management and possibly language tranlation.
	Returns nothing. All calls exit the program, error status 128.
	"""
	error_codes = {
		"Xpatterns":
			"Cannot search for multiple patterns. '-t -p -f'",
		"0patterns":
			"No pattern to search for was supplied. '-t -p -f'",
		"decode":
			"The pattern string is invalid.\n" + str(option),
		"bsize":
			"The buffer size must be at least %s bytes." % str(option),
		"sizes":
			"Size parameters (-b -s -e -m) must be in decimal format.",
		"fpattern":
			"No pattern file found named: %s" % option,
		"startend":
			"The start of search must come before the end.",
		"openfile":
			"Failed opening file: %s" % option,
		"logwrite":
			"Could not write to the log file: %s" % option,
		"read":
			"Failed reading from file: %s" % option,
			
	}
	
	import traceback
	sys.stderr.write(traceback.format_exc() + "\n")
	if not DEBUG:
		sys.stderr.write("version: %s\n" % VERSION)
		sys.stderr.write("Please Report issues to: %s\n" % CONTACT)
		if err: sys.stderr.write("%s\n" % str(err))
	sys.stderr.write("Error <%s>: %s\n\n" % (code, error_codes[code]))
	if __name__ == "__main__":
		sys.exit(128) # Exit under normal operation.
	raise # Raise error on unittest or other execution.


def get_args():
	"""
	Parse all arguments from the command line using ArgumentParser.
	Returns an args object with attributes representing all arguments.
	"""
	from argparse import ArgumentParser
	description = CONTACT + """
	An argument -t or -p or -f is required. The -p argument accepts a 
	hexidecimal pattern string and allows for missing characters, 
	such as 'FF??FF'. When using -f argument, the pattern file will 
	be read as a binary file (not hex strings). If no search files are 
	specified, %prog will read from standard input. The minimum memory 
	required is about 3 times the size of the pattern byte length. 
	Increasing buffer-size will increase program search speed for 
	large search files. All size arguments (-b -s -e) are read in decimal 
	format, for example: '-s 1024' will start searching after 1kilobyte.
	format, for example: '-s 1024' will start searching after 1kilobyte.
	Reported finds are 0-based offset.
	"""
	p = ArgumentParser(description=description)
	
	def add(s, **kwargs):
		args = s.split(':')
		
		value = args.pop(2) # Pop item at index 2 (argument type).
		if value: kwargs['type'] = eval(value) #(type)(value) # str(value) or long(value).
		value = args.pop(2) # Pop item at index 2 (argument metavar).
		if value: kwargs['metavar'] = value
		value = args.pop(2) # Pop item at index 2 (argument name/destination).
		if value: kwargs['dest'] = value
		
		p.add_argument(*args, **kwargs)
	
	p.add_argument('-f', '--file', type=str,
			metavar='FILE', dest='fpattern',
			help='file to read search pattern from')
	p.add_argument('-t', '--text', type=str,
			metavar='PATTERN', dest='tpattern',
			help='a (utf-8 case-sensitive) text string to search for')
	p.add_argument('-p', '--pattern', type=str, # I would use -h for hex, but that's used for help output.
			metavar='PATTERN', dest='ppattern',
			help='a hexidecimal pattern to search for')
	try:    # Python 3.
		p.add_argument('-b', '--buffer-size', type=int,
				metavar='NUM', dest='bsize',
				help='read buffer size (in bytes). 8MB default')
		p.add_argument('-s', '--start', type=int,
				metavar='NUM', dest='start',
				help='starting position in file to begin searching, as bytes')
		p.add_argument('-e', '--end', type=int,
				metavar='NUM', dest='end',
				help='end search at this position, measuring from beginning of file')
		p.add_argument('-m', '--max-matches', type=int,
				metavar='NUM', dest='max_matches',
				help='maximum number of matches to find (0=infinite)')
	except: # Python 2.
		p.add_argument('-b', '--buffer-size', type=long,
				metavar='NUM', dest='bsize',
				help='read buffer size (in bytes). default is 8388608 (8MB)')
		p.add_argument('-s', '--start', type=long,
				metavar='NUM', dest='start',
				help='starting position in file to begin searching, as bytes')
		p.add_argument('-e', '--end', type=long,
				metavar='NUM', dest='end',
				help='end search at this position, measuring from beginning of file')
		p.add_argument('-m', '--max-matches', type=long,
				metavar='NUM', dest='max_matches',
				help='maximum number of matches to find (0=infinite)')
	p.add_argument('-l', '--log', type=str,
			metavar='FILE', dest='log',
			help='write matched offsets to FILE, instead of standard output')
	p.add_argument(type=str,
			metavar='FILE', dest='fsearch', nargs='*',
			help='files to search within')
	p.add_argument('-v', '--verbose',
			dest='verbose', action='store_true',
			help='verbose, output the number of bytes searched after each buffer read')
	p.add_argument('-V', '--version',
			action='version', version='%(prog)s ' + VERSION)
	p.add_argument('-d', '--debug',
			dest='debug', action='store_true',
			help='debugging (don\'t use this)')
	
	return p.parse_args()


"""
=Patterns=
A pattern is a list. It represents the division between known and unknown
bytes to search for. All hex/text/file input is converted to a pattern.
Examples of conversions:
hex "31??33" becomes ['A', 'C']  # Everything is converted internally to strings, even though they may not be printable characters.
text "A?C"   becomes ['A', 'C']
text "A??C"  becomes ['A', '', 'C']
"""
def hex_to_pattern(hex):
	""" Converts a hex string into a pattern. """
	ret = []
	pattern = hex
	if hex[:2] == "0x": # Remove "0x" from start if it exists.
		pattern = hex[2:]
	try:
		ret = [ p for p in pattern.split("??") ]
		try:                  # Python 3.
			return [ bytes.fromhex(p) for p in ret ]
		except AttributeError: # Python 2.
			return [ p.decode("hex") for p in ret ]
	except(TypeError, ValueError):
		e = sys.exc_info()[1]
		_exit_error("decode", hex, e)


def text_to_pattern(text):
	""" Converts a text string into a pattern. """
	try:              # Python 3.
		return [ t.encode('utf-8') for t in text.split("?") ]
	except TypeError: # Python 2.
		return [ t for t in text.split("?") ]


def file_to_pattern(fname):
	""" Converts a file into a pattern. """
	try: # If file specified, read it into memory.
		with open(fname, "rb") as f:
			return [f.read()]
	except IOError:
		e = sys.exc_info()[1]
		_exit_error("fpattern", fname, e)


# We will be keeping the parsed args object and editing its attributes!
def verify_args(ar):
	"""
	Verify that all the parsed args are correct and work well together.
	Returns the modified args object.
	"""
	DEBUG = ar.debug
	
	# Make sure that exactly 1 pattern argument was given.
	all_patterns = list(filter(None, [ar.fpattern, ar.ppattern, ar.tpattern]))
	if len(all_patterns) > 1:
		_exit_error("Xpatterns")
	if len(all_patterns) == 0:
		_exit_error("0patterns")
	
	# Create a new variable ar.pattern, and fill it with
	# whichever pattern we have -t -f -p. ar.pattern will be a list.
	if ar.fpattern:
		ar.pattern = file_to_pattern(ar.fpattern)
	elif ar.tpattern:
		ar.pattern = text_to_pattern(ar.tpattern)
	else:
		ar.pattern = hex_to_pattern(ar.ppattern)
	
	# Convert all number args from strings into long integers.
	try:
		for attr in [ "bsize", "max_matches", "start", "end" ]:
			if getattr(ar, attr):
				setattr(ar, attr, long(getattr(ar, attr)))
	except ValueError:
		e = sys.exc_info()[1]
		_exit_error("sizes", err=e)
	
	# Buffer size must be at least double maximum pattern size.
	if ar.bsize:
		if ar.bsize < len("?".join(ar.pattern)) * 2:
			_exit_error("bsize", len("?".join(ar.pattern)) * 2)
	else:
		ar.bsize = len(b"".join(ar.pattern)) * 2
		ar.bsize = max(ar.bsize, 2**23) # If bsize is < default, set to default.
	
	# Set start and end values to 0 if not set.
	ar.start =  ar.start or 0
	ar.end = ar.end or 0
	# End must be after start.  :)
	if ar.end and ar.start >= ar.end:
		_exit_error("startend")
	
	# If log file is True, open it and replace ar.log with the file handler.
	if ar.log:
		try:
			ar.log = open(ar.log, "w")
		except IOError:
			e = sys.exc_info()[1]
			_exit_error("openfile", ar.log, e)
	
	return ar


def search(ar, fh):
	"""
	This function is simply a wrapper to forward needed variables in a way
	to make them all local variables. Accessing local variables is faster than
	accessing object.attribute variables.
	Returns nothing.
	"""
	if not DEBUG:
		_search_loop(ar.start, ar.end, ar.bsize, ar.pattern,
				ar.max_matches, ar.log, ar.verbose, fh.name,
				fh.read, fh.seek)
	else:
		_debug_search(ar.pattern, fh.name, fh.read)


def _debug_search(pattern, fh_name, fh_read):
	"""
	Slower, less functional, but less error prone simple search.
	For debugging purposes.
	Returns nothing.
	"""
	len_pattern = len(b"?".join(pattern))
	read_size = 2**24 - len_pattern # Amount to read each loop.
	pattern = [ re.escape(p) for p in pattern ]
	pattern = b".".join(pattern)
	regex = re.compile(pattern, re.DOTALL+re.MULTILINE)
	
	try:
		buffer = fh_read(len_pattern + read_size)
		offset = 0
		match = regex.search(buffer)
		while True:
			if not match:
				offset += read_size
				buffer = buffer[read_size:] # Erase front portion of buffer.
				buffer += fh_read(read_size)
				match = regex.search(buffer)
			else:
				STDOUT.write("Match at offset: %14d %12X in  %s\n" % (
						offset+match.start(), offset+match.start(), fh_name))
				match = regex.search(buffer, match.start()+1)
			
			if len(buffer) <= len_pattern:
				return
	except IOError:
		e = sys.exc_info()[1]
		_exit_error("read", fh_name, e)


def _search_loop(start, end, bsize, pattern, max_matches,
		log, verbose, fh_name, fh_read, fh_seek):
	"""
	Primary search function.
	Returns nothing.
	"""
	len_pattern = len(b"?".join(pattern)) # Byte length of pattern.
	read_size = bsize - len_pattern # Amount to read each loop.
	
	# Convert pattern into a regular expression for insane fast searching.
	pattern = [ re.escape(p) for p in pattern ]
	pattern = b".".join(pattern)
	# Grab regex search function directly to speed up function calls.
	regex_search = re.compile(pattern, re.DOTALL+re.MULTILINE).search
	
	offset = start or 0
	# Set start reading position in file.
	try:
		if offset:
			fh_seek(offset)
	except IOError:
		e = sys.exc_info()[1]
		_exit_error("read", fh_name, err=e)
	
	try:
		buffer = fh_read(len_pattern + read_size) # Get initial buffer amount.
		match = regex_search(buffer) # Search for a match in the buffer.
		# Set match to -1 if no match, else set it to the match position.
		match = -1 if match == None else match.start()
		
		while True: # Begin main loop for searching through a file.
			if match == -1: # No match.
				offset += read_size
				# If end exists and we are beyond end, finish search.
				if end and offset > end:
					return
				buffer = buffer[read_size:] # Erase front portion of buffer.
				buffer += fh_read(read_size) # Read more into the buffer.
				match = regex_search(buffer) # Search for next match in the buffer.
				# If there is no match set match to -1, else the matching position.
				match = -1 if match == None else match.start()
				if verbose: # Print each loop offset if verbose is on.
					STDOUT.write("Passing offset: %14d %12X\n" % (offset, offset))
			else: # Else- there was a match.
				# If end exists and we are beyond end, finish search.
				if match == -1 and offset + match > end:
					return
				
				# Print matched offset.
				find_offset = offset + match
				STDOUT.write("Match at offset: %14d %12X in  %s\n" % (
						find_offset, find_offset, fh_name))
				
				if max_matches:
					max_matches -= 1
					if max_matches == 0: # If maximum matches are found, then end.
						STDOUT.write("Found maximum number of matches.\n")
						return
				
				# Search for next match in the buffer.
				match = regex_search(buffer, match+1)
				match = -1 if match == None else match.start()
				
			if len(buffer) <= len_pattern: # If finished reading input then end.
				return
				
		# Main loop closes here.
	
	except IOError:
		e = sys.exc_info()[1]
		_exit_error("read", fh_name, e)


def main():
	args = get_args() # Get commandline arguments.
	args = verify_args(args) # Check arguments for sanity, and edit them a bit.
	if args.fsearch: # If filenames were given on the commandline, process them.
		while args.fsearch: # List of files to search inside.
			try: # Open a filehandler for the filename.
				filehandler = open(args.fsearch[0], "rb")
			except IOError:
				e = sys.exc_info()[1]
				_exit_error("openfile", args.fsearch[0], e)
			search(args, filehandler)
			filehandler.close()
			args.fsearch.pop(0) # Remove each file after search.
	else: # If no files were given, search using stdin.
		
		search(args, STDIN)
	sys.exit(0)


if __name__ == "__main__":
	# This allows the program to exit quickly when pressing ctrl+c.
	signal.signal(signal.SIGINT, signal.SIG_DFL)
	
	main()

source: https://github.com/Sepero/SearchBin/blob/master/searchbin.py

is useful works out fo the box without dependencies,

might need to chmod +x searchbin.py if it dont execute on terminal after changing into the directory with the searchbin.py file i cant explain how ot run this maybe pay someone to support you in person if you have no tech skills.

Code:

searchbin -p 01010420 "path to disk image of .img" file,

Code:

searchbin -p 01010420 /dev/whicheverpath 

its on might work too if you want to go cowboy mode.


it probably will miss it, so try

Code:

searchbin -p 10141f

 if it doesnt work, some keys have this preseeding, i noticed half the old wallets i extracted keys from using raw extraction 10141f found mroe keys, they are just 31 bytes after instead of 32 but they start with 00 i think

it will start outputting offsets of whereveer private keys are stored on the drive. and you can then run pywallet or if you want to be pressie  locate the wallet file.


also a bonus,

Code:

searchbin.py -p 6231050009000000 "path to disk image"

will output offsets to wallet files.


i mean its not guaranteed to, but it should help you get closer to recovering it.

if you get rich please ask me for my wallet address. thanks also if you find any hits let me know i can give more advice, im learning the shit out of recovering wallets as i still cant recover mine.[/code]

If I find  6231050009000000 and 10141f while looking for a deleted wallet.... how do I get a private key from that? Fell free to message me

[litecoin_messiah]

Pywallet requires ton of plugins, you dont want to be connecting to the internet while sandboxed just to get that script working properly, (just a millisecond can leak keys) to some hacker

i suggest first just searching for the berkeley database file headers, you can then use some software to extract the files. but first make a disk image using a ubuntu live usb or something.


go to gnome disks, (if using windows make sure the computer isnt hibernating and shut down correctly or not i dunno maybe that might overwrite some data if you do make 3 disk images i guess, do sudo gnome-disks if your noob and select disk and create an image of it on a m2ssd or something)

Code:

#!/usr/bin/env python
"""
searchbin.py -t PATTERN [FILE [FILE...]]
searchbin.py -p PATTERN [FILE [FILE...]]
searchbin.py -f FILE    [FILE [FILE...]]

examples:
./searchbin.py -t "hello" myfile.exe
Searches for the text "hello" in myfile.exe.

./searchbin.py -p "CCDDFF" myfile.exe
Searches for the hexidecimal pattern "CCDDFF" in myfile.exe.

./searchbin.py -f pattern.bin myfile.exe
Reads the file pattern.bin, and searches for a binary match within myfile.exe.

Many more capabilites, just run ./searchbin.py --help

+Features: no compiling, fast, small file, wild card matches, search multiple files of unlimited size, all operating systems
+Minimum Py2.7 required for argparse library
+keywords binary grep search seek find fast

license: BSD 2-Clause License, 2012, Sepero
license: http://www.opensource.org/licenses/BSD-2-Clause
"""

from __future__ import unicode_literals
import re
import signal
import sys

# Global variables.
CONTACT=("sepero 111 @ gmx . com\n"
		"https://bitbucket.org/Sepero/searchbin/issues/new\n"
		"http://seperohacker.blogspot.com/2012/04/binary-grep-program-searchbin.html")

VERSION="1.00"
DEBUG = False
STDOUT = sys.stdout

try:    # Python 3 modifications.
	STDIN = sys.stdin.buffer
except: # Python 2 modifications.
	STDIN = sys.stdin
	range = xrange


def _exit_error(code, option="", err=None):
	"""
	Error information is kept here for the purposes of easier management and possibly language tranlation.
	Returns nothing. All calls exit the program, error status 128.
	"""
	error_codes = {
		"Xpatterns":
			"Cannot search for multiple patterns. '-t -p -f'",
		"0patterns":
			"No pattern to search for was supplied. '-t -p -f'",
		"decode":
			"The pattern string is invalid.\n" + str(option),
		"bsize":
			"The buffer size must be at least %s bytes." % str(option),
		"sizes":
			"Size parameters (-b -s -e -m) must be in decimal format.",
		"fpattern":
			"No pattern file found named: %s" % option,
		"startend":
			"The start of search must come before the end.",
		"openfile":
			"Failed opening file: %s" % option,
		"logwrite":
			"Could not write to the log file: %s" % option,
		"read":
			"Failed reading from file: %s" % option,
			
	}
	
	import traceback
	sys.stderr.write(traceback.format_exc() + "\n")
	if not DEBUG:
		sys.stderr.write("version: %s\n" % VERSION)
		sys.stderr.write("Please Report issues to: %s\n" % CONTACT)
		if err: sys.stderr.write("%s\n" % str(err))
	sys.stderr.write("Error <%s>: %s\n\n" % (code, error_codes[code]))
	if __name__ == "__main__":
		sys.exit(128) # Exit under normal operation.
	raise # Raise error on unittest or other execution.


def get_args():
	"""
	Parse all arguments from the command line using ArgumentParser.
	Returns an args object with attributes representing all arguments.
	"""
	from argparse import ArgumentParser
	description = CONTACT + """
	An argument -t or -p or -f is required. The -p argument accepts a 
	hexidecimal pattern string and allows for missing characters, 
	such as 'FF??FF'. When using -f argument, the pattern file will 
	be read as a binary file (not hex strings). If no search files are 
	specified, %prog will read from standard input. The minimum memory 
	required is about 3 times the size of the pattern byte length. 
	Increasing buffer-size will increase program search speed for 
	large search files. All size arguments (-b -s -e) are read in decimal 
	format, for example: '-s 1024' will start searching after 1kilobyte.
	format, for example: '-s 1024' will start searching after 1kilobyte.
	Reported finds are 0-based offset.
	"""
	p = ArgumentParser(description=description)
	
	def add(s, **kwargs):
		args = s.split(':')
		
		value = args.pop(2) # Pop item at index 2 (argument type).
		if value: kwargs['type'] = eval(value) #(type)(value) # str(value) or long(value).
		value = args.pop(2) # Pop item at index 2 (argument metavar).
		if value: kwargs['metavar'] = value
		value = args.pop(2) # Pop item at index 2 (argument name/destination).
		if value: kwargs['dest'] = value
		
		p.add_argument(*args, **kwargs)
	
	p.add_argument('-f', '--file', type=str,
			metavar='FILE', dest='fpattern',
			help='file to read search pattern from')
	p.add_argument('-t', '--text', type=str,
			metavar='PATTERN', dest='tpattern',
			help='a (utf-8 case-sensitive) text string to search for')
	p.add_argument('-p', '--pattern', type=str, # I would use -h for hex, but that's used for help output.
			metavar='PATTERN', dest='ppattern',
			help='a hexidecimal pattern to search for')
	try:    # Python 3.
		p.add_argument('-b', '--buffer-size', type=int,
				metavar='NUM', dest='bsize',
				help='read buffer size (in bytes). 8MB default')
		p.add_argument('-s', '--start', type=int,
				metavar='NUM', dest='start',
				help='starting position in file to begin searching, as bytes')
		p.add_argument('-e', '--end', type=int,
				metavar='NUM', dest='end',
				help='end search at this position, measuring from beginning of file')
		p.add_argument('-m', '--max-matches', type=int,
				metavar='NUM', dest='max_matches',
				help='maximum number of matches to find (0=infinite)')
	except: # Python 2.
		p.add_argument('-b', '--buffer-size', type=long,
				metavar='NUM', dest='bsize',
				help='read buffer size (in bytes). default is 8388608 (8MB)')
		p.add_argument('-s', '--start', type=long,
				metavar='NUM', dest='start',
				help='starting position in file to begin searching, as bytes')
		p.add_argument('-e', '--end', type=long,
				metavar='NUM', dest='end',
				help='end search at this position, measuring from beginning of file')
		p.add_argument('-m', '--max-matches', type=long,
				metavar='NUM', dest='max_matches',
				help='maximum number of matches to find (0=infinite)')
	p.add_argument('-l', '--log', type=str,
			metavar='FILE', dest='log',
			help='write matched offsets to FILE, instead of standard output')
	p.add_argument(type=str,
			metavar='FILE', dest='fsearch', nargs='*',
			help='files to search within')
	p.add_argument('-v', '--verbose',
			dest='verbose', action='store_true',
			help='verbose, output the number of bytes searched after each buffer read')
	p.add_argument('-V', '--version',
			action='version', version='%(prog)s ' + VERSION)
	p.add_argument('-d', '--debug',
			dest='debug', action='store_true',
			help='debugging (don\'t use this)')
	
	return p.parse_args()


"""
=Patterns=
A pattern is a list. It represents the division between known and unknown
bytes to search for. All hex/text/file input is converted to a pattern.
Examples of conversions:
hex "31??33" becomes ['A', 'C']  # Everything is converted internally to strings, even though they may not be printable characters.
text "A?C"   becomes ['A', 'C']
text "A??C"  becomes ['A', '', 'C']
"""
def hex_to_pattern(hex):
	""" Converts a hex string into a pattern. """
	ret = []
	pattern = hex
	if hex[:2] == "0x": # Remove "0x" from start if it exists.
		pattern = hex[2:]
	try:
		ret = [ p for p in pattern.split("??") ]
		try:                  # Python 3.
			return [ bytes.fromhex(p) for p in ret ]
		except AttributeError: # Python 2.
			return [ p.decode("hex") for p in ret ]
	except(TypeError, ValueError):
		e = sys.exc_info()[1]
		_exit_error("decode", hex, e)


def text_to_pattern(text):
	""" Converts a text string into a pattern. """
	try:              # Python 3.
		return [ t.encode('utf-8') for t in text.split("?") ]
	except TypeError: # Python 2.
		return [ t for t in text.split("?") ]


def file_to_pattern(fname):
	""" Converts a file into a pattern. """
	try: # If file specified, read it into memory.
		with open(fname, "rb") as f:
			return [f.read()]
	except IOError:
		e = sys.exc_info()[1]
		_exit_error("fpattern", fname, e)


# We will be keeping the parsed args object and editing its attributes!
def verify_args(ar):
	"""
	Verify that all the parsed args are correct and work well together.
	Returns the modified args object.
	"""
	DEBUG = ar.debug
	
	# Make sure that exactly 1 pattern argument was given.
	all_patterns = list(filter(None, [ar.fpattern, ar.ppattern, ar.tpattern]))
	if len(all_patterns) > 1:
		_exit_error("Xpatterns")
	if len(all_patterns) == 0:
		_exit_error("0patterns")
	
	# Create a new variable ar.pattern, and fill it with
	# whichever pattern we have -t -f -p. ar.pattern will be a list.
	if ar.fpattern:
		ar.pattern = file_to_pattern(ar.fpattern)
	elif ar.tpattern:
		ar.pattern = text_to_pattern(ar.tpattern)
	else:
		ar.pattern = hex_to_pattern(ar.ppattern)
	
	# Convert all number args from strings into long integers.
	try:
		for attr in [ "bsize", "max_matches", "start", "end" ]:
			if getattr(ar, attr):
				setattr(ar, attr, long(getattr(ar, attr)))
	except ValueError:
		e = sys.exc_info()[1]
		_exit_error("sizes", err=e)
	
	# Buffer size must be at least double maximum pattern size.
	if ar.bsize:
		if ar.bsize < len("?".join(ar.pattern)) * 2:
			_exit_error("bsize", len("?".join(ar.pattern)) * 2)
	else:
		ar.bsize = len(b"".join(ar.pattern)) * 2
		ar.bsize = max(ar.bsize, 2**23) # If bsize is < default, set to default.
	
	# Set start and end values to 0 if not set.
	ar.start =  ar.start or 0
	ar.end = ar.end or 0
	# End must be after start.  :)
	if ar.end and ar.start >= ar.end:
		_exit_error("startend")
	
	# If log file is True, open it and replace ar.log with the file handler.
	if ar.log:
		try:
			ar.log = open(ar.log, "w")
		except IOError:
			e = sys.exc_info()[1]
			_exit_error("openfile", ar.log, e)
	
	return ar


def search(ar, fh):
	"""
	This function is simply a wrapper to forward needed variables in a way
	to make them all local variables. Accessing local variables is faster than
	accessing object.attribute variables.
	Returns nothing.
	"""
	if not DEBUG:
		_search_loop(ar.start, ar.end, ar.bsize, ar.pattern,
				ar.max_matches, ar.log, ar.verbose, fh.name,
				fh.read, fh.seek)
	else:
		_debug_search(ar.pattern, fh.name, fh.read)


def _debug_search(pattern, fh_name, fh_read):
	"""
	Slower, less functional, but less error prone simple search.
	For debugging purposes.
	Returns nothing.
	"""
	len_pattern = len(b"?".join(pattern))
	read_size = 2**24 - len_pattern # Amount to read each loop.
	pattern = [ re.escape(p) for p in pattern ]
	pattern = b".".join(pattern)
	regex = re.compile(pattern, re.DOTALL+re.MULTILINE)
	
	try:
		buffer = fh_read(len_pattern + read_size)
		offset = 0
		match = regex.search(buffer)
		while True:
			if not match:
				offset += read_size
				buffer = buffer[read_size:] # Erase front portion of buffer.
				buffer += fh_read(read_size)
				match = regex.search(buffer)
			else:
				STDOUT.write("Match at offset: %14d %12X in  %s\n" % (
						offset+match.start(), offset+match.start(), fh_name))
				match = regex.search(buffer, match.start()+1)
			
			if len(buffer) <= len_pattern:
				return
	except IOError:
		e = sys.exc_info()[1]
		_exit_error("read", fh_name, e)


def _search_loop(start, end, bsize, pattern, max_matches,
		log, verbose, fh_name, fh_read, fh_seek):
	"""
	Primary search function.
	Returns nothing.
	"""
	len_pattern = len(b"?".join(pattern)) # Byte length of pattern.
	read_size = bsize - len_pattern # Amount to read each loop.
	
	# Convert pattern into a regular expression for insane fast searching.
	pattern = [ re.escape(p) for p in pattern ]
	pattern = b".".join(pattern)
	# Grab regex search function directly to speed up function calls.
	regex_search = re.compile(pattern, re.DOTALL+re.MULTILINE).search
	
	offset = start or 0
	# Set start reading position in file.
	try:
		if offset:
			fh_seek(offset)
	except IOError:
		e = sys.exc_info()[1]
		_exit_error("read", fh_name, err=e)
	
	try:
		buffer = fh_read(len_pattern + read_size) # Get initial buffer amount.
		match = regex_search(buffer) # Search for a match in the buffer.
		# Set match to -1 if no match, else set it to the match position.
		match = -1 if match == None else match.start()
		
		while True: # Begin main loop for searching through a file.
			if match == -1: # No match.
				offset += read_size
				# If end exists and we are beyond end, finish search.
				if end and offset > end:
					return
				buffer = buffer[read_size:] # Erase front portion of buffer.
				buffer += fh_read(read_size) # Read more into the buffer.
				match = regex_search(buffer) # Search for next match in the buffer.
				# If there is no match set match to -1, else the matching position.
				match = -1 if match == None else match.start()
				if verbose: # Print each loop offset if verbose is on.
					STDOUT.write("Passing offset: %14d %12X\n" % (offset, offset))
			else: # Else- there was a match.
				# If end exists and we are beyond end, finish search.
				if match == -1 and offset + match > end:
					return
				
				# Print matched offset.
				find_offset = offset + match
				STDOUT.write("Match at offset: %14d %12X in  %s\n" % (
						find_offset, find_offset, fh_name))
				
				if max_matches:
					max_matches -= 1
					if max_matches == 0: # If maximum matches are found, then end.
						STDOUT.write("Found maximum number of matches.\n")
						return
				
				# Search for next match in the buffer.
				match = regex_search(buffer, match+1)
				match = -1 if match == None else match.start()
				
			if len(buffer) <= len_pattern: # If finished reading input then end.
				return
				
		# Main loop closes here.
	
	except IOError:
		e = sys.exc_info()[1]
		_exit_error("read", fh_name, e)


def main():
	args = get_args() # Get commandline arguments.
	args = verify_args(args) # Check arguments for sanity, and edit them a bit.
	if args.fsearch: # If filenames were given on the commandline, process them.
		while args.fsearch: # List of files to search inside.
			try: # Open a filehandler for the filename.
				filehandler = open(args.fsearch[0], "rb")
			except IOError:
				e = sys.exc_info()[1]
				_exit_error("openfile", args.fsearch[0], e)
			search(args, filehandler)
			filehandler.close()
			args.fsearch.pop(0) # Remove each file after search.
	else: # If no files were given, search using stdin.
		
		search(args, STDIN)
	sys.exit(0)


if __name__ == "__main__":
	# This allows the program to exit quickly when pressing ctrl+c.
	signal.signal(signal.SIGINT, signal.SIG_DFL)
	
	main()

source: https://github.com/Sepero/SearchBin/blob/master/searchbin.py

is useful works out fo the box without dependencies,

might need to chmod +x searchbin.py if it dont execute on terminal after changing into the directory with the searchbin.py file i cant explain how ot run this maybe pay someone to support you in person if you have no tech skills.

Code:

searchbin -p 01010420 "path to disk image of .img" file,

Code:

searchbin -p 01010420 /dev/whicheverpath 

its on might work too if you want to go cowboy mode.


it probably will miss it, so try

Code:

searchbin -p 10141f

 if it doesnt work, some keys have this preseeding, i noticed half the old wallets i extracted keys from using raw extraction 10141f found mroe keys, they are just 31 bytes after instead of 32 but they start with 00 i think

it will start outputting offsets of whereveer private keys are stored on the drive. and you can then run pywallet or if you want to be pressie  locate the wallet file.


also a bonus,

Code:

searchbin.py -p 6231050009000000 "path to disk image"

will output offsets to wallet files.


i mean its not guaranteed to, but it should help you get closer to recovering it.

if you get rich please ask me for my wallet address. thanks also if you find any hits let me know i can give more advice, im learning the shit out of recovering wallets as i still cant recover mine.[/code]

If I find  6231050009000000 and 10141f while looking for a deleted wallet.... how do I get a private key from that? Fell free to message me

Code:

10141f

Is Usually

Code:

101420

20 is hexadecimal. If you go to https://www.rapidtables.com/convert/number/hex-to-decimal.html?x=20 you can see the number is 32.

32 sort of represents the amount of characters to read to to get the private key

now when it says 1f instead of 20 it if we go to https://www.rapidtables.com/convert/number/hex-to-decimal.html?x=1f you can see the number is 31

so we only read 31 characters after.

the private key is 31 characters long (in hex format).


it could even be 1e, that will be 30 characters long.


whatever the case, lets say you have a key that starts with 10141f, you read the 31 characters following for the private key. You can turn it into a private key with a tool such as https://brainwalletx.github.io/ and paste the hex into the "Secret Exponent" section, be sure to select compressed/uncompressed format or the right crypto network.


not sure if that answers. Also don't use https://brainwalletx.github.io/ without downloading it first/inspecting the code if possible from


Usually people just add padding with 0's on the key it all depends on how you use the key.