added support for Linux
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@ -11,7 +11,7 @@ maximumAgeOfAnObjectThatIAmWillingToAccept = 216000 #Equals two days and 12 hour
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lengthOfTimeToLeaveObjectsInInventory = 237600 #Equals two days and 18 hours. This should be longer than maximumAgeOfAnObjectThatIAmWillingToAccept so that we don't process messages twice.
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lengthOfTimeToLeaveObjectsInInventory = 237600 #Equals two days and 18 hours. This should be longer than maximumAgeOfAnObjectThatIAmWillingToAccept so that we don't process messages twice.
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maximumAgeOfObjectsThatIAdvertiseToOthers = 216000 #Equals two days and 12 hours
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maximumAgeOfObjectsThatIAdvertiseToOthers = 216000 #Equals two days and 12 hours
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maximumAgeOfNodesThatIAdvertiseToOthers = 10800 #Equals three hours
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maximumAgeOfNodesThatIAdvertiseToOthers = 10800 #Equals three hours
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storeConfigFilesInSameDirectoryAsProgram = True
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storeConfigFilesInSameDirectoryAsProgram = False
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userVeryEasyProofOfWorkForTesting = True #If you set this to True while on the normal network, you won't be able to send or sometimes receive messages.
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userVeryEasyProofOfWorkForTesting = True #If you set this to True while on the normal network, you won't be able to send or sometimes receive messages.
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import sys
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import sys
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@ -49,8 +49,8 @@ from time import strftime, localtime
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import os
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import os
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import string
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import string
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import socks
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import socks
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import pyelliptic
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#import pyelliptic
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from pyelliptic import highlevelcrypto
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import highlevelcrypto
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from pyelliptic.openssl import OpenSSL
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from pyelliptic.openssl import OpenSSL
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import ctypes
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import ctypes
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from pyelliptic import arithmetic
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from pyelliptic import arithmetic
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@ -1947,7 +1947,7 @@ def decodeWalletImportFormat(WIFstring):
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def reloadMyAddressHashes():
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def reloadMyAddressHashes():
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printLock.acquire()
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printLock.acquire()
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print 'reloading my address hashes'
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print 'reloading keys from keys.dat file'
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printLock.release()
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printLock.release()
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myRSAAddressHashes.clear()
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myRSAAddressHashes.clear()
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#myPrivateKeys.clear()
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#myPrivateKeys.clear()
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@ -2570,7 +2570,10 @@ class addressGenerator(QThread):
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#This next section is a little bit strange. We're going to generate keys over and over until we
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#This next section is a little bit strange. We're going to generate keys over and over until we
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#find one that starts with either \x00 or \x00\x00. Then when we pack them into a Bitmessage address,
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#find one that starts with either \x00 or \x00\x00. Then when we pack them into a Bitmessage address,
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#we won't store the \x00 or \x00\x00 bytes thus making the address shorter.
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#we won't store the \x00 or \x00\x00 bytes thus making the address shorter.
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startTime = time.time()
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numberOfAddressesWeHadToMakeBeforeWeFoundOneWithTheCorrectRipePrefix = 0
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while True:
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while True:
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numberOfAddressesWeHadToMakeBeforeWeFoundOneWithTheCorrectRipePrefix += 1
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potentialPrivSigningKey = OpenSSL.rand(32)
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potentialPrivSigningKey = OpenSSL.rand(32)
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potentialPrivEncryptionKey = OpenSSL.rand(32)
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potentialPrivEncryptionKey = OpenSSL.rand(32)
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potentialPubSigningKey = self.pointMult(potentialPrivSigningKey)
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potentialPubSigningKey = self.pointMult(potentialPrivSigningKey)
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@ -2590,6 +2593,7 @@ class addressGenerator(QThread):
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if ripe.digest()[:1] == '\x00':
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if ripe.digest()[:1] == '\x00':
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break
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break
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print 'ripe.digest', ripe.digest().encode('hex')
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print 'ripe.digest', ripe.digest().encode('hex')
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print 'Address generator calculated', numberOfAddressesWeHadToMakeBeforeWeFoundOneWithTheCorrectRipePrefix, 'addresses at', numberOfAddressesWeHadToMakeBeforeWeFoundOneWithTheCorrectRipePrefix/(time.time()-startTime),'keys per second.'
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if ripe.digest()[:2] == '\x00\x00':
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if ripe.digest()[:2] == '\x00\x00':
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address = encodeAddress(2,self.streamNumber,ripe.digest()[2:])
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address = encodeAddress(2,self.streamNumber,ripe.digest()[2:])
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elif ripe.digest()[:1] == '\x00':
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elif ripe.digest()[:1] == '\x00':
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@ -2631,7 +2635,8 @@ class addressGenerator(QThread):
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#This next section is a little bit strange. We're going to generate keys over and over until we
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#This next section is a little bit strange. We're going to generate keys over and over until we
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#find one that starts with either \x00 or \x00\x00. Then when we pack them into a Bitmessage address,
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#find one that starts with either \x00 or \x00\x00. Then when we pack them into a Bitmessage address,
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#we won't store the \x00 or \x00\x00 bytes thus making the address shorter.
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#we won't store the \x00 or \x00\x00 bytes thus making the address shorter.
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startTime = time.time()
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numberOfAddressesWeHadToMakeBeforeWeFoundOneWithTheCorrectRipePrefix = 0
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while True:
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while True:
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potentialPrivSigningKey = hashlib.sha512(self.deterministicPassphrase + encodeVarint(signingKeyNonce)).digest()[:32]
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potentialPrivSigningKey = hashlib.sha512(self.deterministicPassphrase + encodeVarint(signingKeyNonce)).digest()[:32]
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potentialPrivEncryptionKey = hashlib.sha512(self.deterministicPassphrase + encodeVarint(encryptionKeyNonce)).digest()[:32]
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potentialPrivEncryptionKey = hashlib.sha512(self.deterministicPassphrase + encodeVarint(encryptionKeyNonce)).digest()[:32]
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@ -2654,6 +2659,7 @@ class addressGenerator(QThread):
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break
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break
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print 'ripe.digest', ripe.digest().encode('hex')
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print 'ripe.digest', ripe.digest().encode('hex')
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print 'Address generator calculated', numberOfAddressesWeHadToMakeBeforeWeFoundOneWithTheCorrectRipePrefix, 'addresses at', numberOfAddressesWeHadToMakeBeforeWeFoundOneWithTheCorrectRipePrefix/(time.time()-startTime),'keys per second.'
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if ripe.digest()[:2] == '\x00\x00':
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if ripe.digest()[:2] == '\x00\x00':
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address = encodeAddress(2,self.streamNumber,ripe.digest()[2:])
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address = encodeAddress(2,self.streamNumber,ripe.digest()[2:])
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elif ripe.digest()[:1] == '\x00':
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elif ripe.digest()[:1] == '\x00':
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@ -2722,18 +2728,15 @@ class addressGenerator(QThread):
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self.emit(SIGNAL("writeNewAddressToTable(PyQt_PyObject,PyQt_PyObject,PyQt_PyObject)"),self.label,address,str(self.streamNumber))
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self.emit(SIGNAL("writeNewAddressToTable(PyQt_PyObject,PyQt_PyObject,PyQt_PyObject)"),self.label,address,str(self.streamNumber))
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reloadMyAddressHashes()
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reloadMyAddressHashes()
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#Does an EC point multiplication which basically turns a private key into a public key
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def pointMult(self,secret):
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def pointMult(self,secret):
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#passphrase += 'a'
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#ctx = OpenSSL.BN_CTX_new() #This value proved to cause Seg Faults on Linux. It turns out that it really didn't speed up EC_POINT_mul anyway.
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#secret = hashlib.sha256(passphrase.encode('utf8')).digest()
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#if secret starts with too many FF's, continue
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ctx = OpenSSL.BN_CTX_new()
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#secret = OpenSSL.rand(32)
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k = OpenSSL.EC_KEY_new_by_curve_name(OpenSSL.get_curve('secp256k1'))
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k = OpenSSL.EC_KEY_new_by_curve_name(OpenSSL.get_curve('secp256k1'))
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priv_key = OpenSSL.BN_bin2bn(secret, 32, 0)
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priv_key = OpenSSL.BN_bin2bn(secret, 32, 0)
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group = OpenSSL.EC_KEY_get0_group(k)
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group = OpenSSL.EC_KEY_get0_group(k)
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pub_key = OpenSSL.EC_POINT_new(group)
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pub_key = OpenSSL.EC_POINT_new(group)
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OpenSSL.EC_POINT_mul(group, pub_key, priv_key, None, None, ctx)
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OpenSSL.EC_POINT_mul(group, pub_key, priv_key, None, None, None)
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OpenSSL.EC_KEY_set_private_key(k, priv_key)
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OpenSSL.EC_KEY_set_private_key(k, priv_key)
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OpenSSL.EC_KEY_set_public_key(k, pub_key)
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OpenSSL.EC_KEY_set_public_key(k, pub_key)
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#print 'priv_key',priv_key
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#print 'priv_key',priv_key
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@ -2745,15 +2748,8 @@ class addressGenerator(QThread):
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#print 'mb.raw', mb.raw.encode('hex'), 'length:', len(mb.raw)
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#print 'mb.raw', mb.raw.encode('hex'), 'length:', len(mb.raw)
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#print 'mb.raw', mb.raw, 'length:', len(mb.raw)
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#print 'mb.raw', mb.raw, 'length:', len(mb.raw)
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#ripe = hashlib.new('ripemd160')
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#sha = hashlib.new('sha512')
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#sha.update(mb.raw)
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#ripe.update(sha.digest())
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OpenSSL.EC_POINT_free(pub_key)
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OpenSSL.EC_POINT_free(pub_key)
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OpenSSL.BN_CTX_free(ctx)
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#OpenSSL.BN_CTX_free(ctx)
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OpenSSL.BN_free(priv_key)
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OpenSSL.BN_free(priv_key)
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OpenSSL.EC_KEY_free(k)
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OpenSSL.EC_KEY_free(k)
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return mb.raw
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return mb.raw
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@ -4158,11 +4154,11 @@ class MyForm(QtGui.QMainWindow):
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self.rerenderComboBoxSendFrom()
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self.rerenderComboBoxSendFrom()
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def updateStatusBar(self,data):
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def updateStatusBar(self,data):
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printLock.acquire()
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print 'Status bar:', data
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print 'Status bar:', data
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printLock.release()
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self.statusBar().showMessage(data)
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self.statusBar().showMessage(data)
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def reloadBroadcastSendersForWhichImWatching(self):
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def reloadBroadcastSendersForWhichImWatching(self):
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broadcastSendersForWhichImWatching.clear()
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broadcastSendersForWhichImWatching.clear()
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sqlLock.acquire()
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sqlLock.acquire()
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@ -1,5 +1,5 @@
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import pyelliptic
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import pyelliptic
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import arithmetic as a
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from pyelliptic import arithmetic as a
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def makeCryptor(privkey):
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def makeCryptor(privkey):
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privkey_bin = '\x02\xca\x00 '+a.changebase(privkey,16,256,minlen=32)
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privkey_bin = '\x02\xca\x00 '+a.changebase(privkey,16,256,minlen=32)
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pubkey = a.changebase(a.privtopub(privkey),16,256,minlen=65)[1:]
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pubkey = a.changebase(a.privtopub(privkey),16,256,minlen=65)[1:]
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@ -181,13 +181,13 @@ class _OpenSSL:
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self.EVP_aes_256_cbc.restype = ctypes.c_void_p
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self.EVP_aes_256_cbc.restype = ctypes.c_void_p
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self.EVP_aes_256_cbc.argtypes = []
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self.EVP_aes_256_cbc.argtypes = []
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self.EVP_aes_128_ctr = self._lib.EVP_aes_128_ctr
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#self.EVP_aes_128_ctr = self._lib.EVP_aes_128_ctr
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self.EVP_aes_128_ctr.restype = ctypes.c_void_p
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#self.EVP_aes_128_ctr.restype = ctypes.c_void_p
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self.EVP_aes_128_ctr.argtypes = []
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#self.EVP_aes_128_ctr.argtypes = []
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self.EVP_aes_256_ctr = self._lib.EVP_aes_256_ctr
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#self.EVP_aes_256_ctr = self._lib.EVP_aes_256_ctr
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self.EVP_aes_256_ctr.restype = ctypes.c_void_p
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#self.EVP_aes_256_ctr.restype = ctypes.c_void_p
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self.EVP_aes_256_ctr.argtypes = []
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#self.EVP_aes_256_ctr.argtypes = []
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self.EVP_aes_128_ofb = self._lib.EVP_aes_128_ofb
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self.EVP_aes_128_ofb = self._lib.EVP_aes_128_ofb
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self.EVP_aes_128_ofb.restype = ctypes.c_void_p
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self.EVP_aes_128_ofb.restype = ctypes.c_void_p
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from os import path
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from os import path
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lib_path = path.join(sys._MEIPASS, "libeay32.dll")
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lib_path = path.join(sys._MEIPASS, "libeay32.dll")
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OpenSSL = _OpenSSL(lib_path)
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OpenSSL = _OpenSSL(lib_path)
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except:
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if 'linux' in sys.platform:
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try:
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from ctypes.util import find_library
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OpenSSL = _OpenSSL(find_library('ssl'))
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except:
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except:
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raise Exception("Couldn't load the OpenSSL library. You must install it.")
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raise Exception("Couldn't load the OpenSSL library. You must install it.")
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else:
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raise Exception("Couldn't load the OpenSSL library. You must install it.")
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