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132 lines
3.8 KiB
Python
132 lines
3.8 KiB
Python
#!/usr/bin/python
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#Some code to do the same thing as btcproof (since I think there may be an error in their file hashing?)
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#some of this code is taken from KeyUtils.py on a random github, so if you made that, then thanks
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import sys
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import ecdsa
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import ecdsa.der
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import ecdsa.util
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import hashlib
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import os
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import re
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import struct
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import webbrowser #for qr code of address
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b58 = '123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz'
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VERSION = 0x00
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def base58encode(n):
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result = ''
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while n > 0:
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result = b58[n%58] + result
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n /= 58
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return result
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def base256decode(s):
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result = 0
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for c in s:
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result = result * 256 + ord(c)
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return result
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def countLeadingChars(s, ch):
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count = 0
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for c in s:
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if c == ch:
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count += 1
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else:
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break
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return count
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# https://en.bitcoin.it/wiki/Base58Check_encoding
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def base58CheckEncode(version, payload):
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s = chr(version) + payload #concat version
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checksum = hashlib.sha256(hashlib.sha256(s).digest()).digest()[0:4]
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print("checksum", checksum)
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result = s + checksum #concat checksum to end
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leadingZeros = countLeadingChars(result, '\0')
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#return base58encode(base256decode(result))
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return '1' * leadingZeros + base58encode(base256decode(result))
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def privateKeyToWif(key_hex):
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return base58CheckEncode(VERSION, key_hex.decode('hex'))
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def privateKeyToPublicKey(s):
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sk = ecdsa.SigningKey.from_string(s.decode('hex'), curve=ecdsa.SECP256k1)
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vk = sk.verifying_key
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return ('\04' + sk.verifying_key.to_string()).encode('hex')
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def pubKeyToAddr(s):
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ripemd160 = hashlib.new('ripemd160')
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ripemd160.update(hashlib.sha256(s.decode('hex')).digest())
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return base58CheckEncode(0, ripemd160.digest())
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def keyToAddr(s):
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return pubKeyToAddr(privateKeyToPublicKey(s))
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## below tto create digest of file, result should not vary with blocksize
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BLOCKSIZE = 2 **10
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def sha256OfFile(filepath):
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sha = hashlib.sha256()
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with open(filepath, 'rb') as f:
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while True:
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block = f.read(BLOCKSIZE)
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if len(block) < BLOCKSIZE:
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print(len(block))
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block = block[:-1]
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if not block: break
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sha.update(block)
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return sha.hexdigest()
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##proofs, c.f.
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#https://www.btproof.com/technical.html
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# hash = SHA256(DATA) // or the supplied hash
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#vhash = CONCAT(VERSION_BYTE, RIPEMD160(hash)) // VERSION_BYTE is 0x00 for main net
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#address = BASE58(CONCAT(vhash, SHA256(SHA256(vhash))[0..3]))
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def btcProofOfFile(fi):
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has = sha256OfFile(fi)
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ripemd160 = hashlib.new('ripemd160')
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ripemd160.update(has)
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address = base58CheckEncode(0, ripemd160.digest())
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return address
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def btcProofOfString(strin):
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sha = hashlib.sha256()
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sha.update(strin)
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has = sha.digest()
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ripemd160 = hashlib.new('ripemd160')
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ripemd160.update(has)
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address = base58CheckEncode(0, ripemd160.digest())
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return address
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# Generate a random private key
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#private_key = os.urandom(32).encode('hex')
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#address = base58CheckEncode(version, payload)
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#this works (check sha test vectors at http://www.di-mgt.com.au/sha_testvectors.html) indicating I am hashing the file correctly
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#print(sha256OfFile("a.txt"))
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#print("should be: cdc76e5c 9914fb92 81a1c7e2 84d73e67 f1809a48 a497200e 046d39cc c7112cd0")
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#this works
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#print("address for abc")
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#print(btcProofOfString("abc"))
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#this does not agree with btcproof.com, indicating they are hashing file wrong
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#print("address for a.txt")
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#print(btcProofOfFile("a.txt"))
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#print("bitcoin:"+btcProofOfFile(sys.argv[1])+"?amount=0.0001")
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a = btcProofOfFile(sys.argv[1])
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print(a)
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#bitcoin:1PZmMahjbfsTy6DsaRyfStzoWTPppWwDnZ?amount=0.1
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#url = "https://chart.googleapis.com/chart?chs=250x250&cht=qr&chl="+a
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url2 = "https://blockchain.info/address/"+a
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#print(url)
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print(url2)
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#webbrowser.open(url)
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webbrowser.open(url2)
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