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From: Enji Cooper <ngie@FreeBSD.org>
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Subject: svn commit: r346620 - head/tests/sys/opencrypto
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Date: Tue, 03 Sep 2019 14:08:21 -0000
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Author: ngie
Date: Wed Apr 24 04:40:24 2019
New Revision: 346620
URL: https://svnweb.freebsd.org/changeset/base/346620

Log:
  Reapply whitespace style changes from r346443 after recent changes to tests/sys/opencrypto
  
  From r346443:
  """
  Replace hard tabs with four-character indentations, per PEP8.
  
  This is being done to separate stylistic changes from the tests from functional
  ones, as I accidentally introduced a bug to the tests when I used four-space
  indentation locally.
  
  No functional change.
  """
  
  MFC after:	2 months
  Discussed with:	jhb

Modified:
  head/tests/sys/opencrypto/cryptodev.py
  head/tests/sys/opencrypto/cryptotest.py

Modified: head/tests/sys/opencrypto/cryptodev.py
==============================================================================
--- head/tests/sys/opencrypto/cryptodev.py	Wed Apr 24 02:51:58 2019	(r346619)
+++ head/tests/sys/opencrypto/cryptodev.py	Wed Apr 24 04:40:24 2019	(r346620)
@@ -35,73 +35,79 @@ import array
 import dpkt
 from fcntl import ioctl
 import os
+import random
 import signal
 from struct import pack as _pack
+import time
 
 from cryptodevh import *
 
 __all__ = [ 'Crypto', 'MismatchError', ]
 
 class FindOp(dpkt.Packet):
-	__byte_order__ = '@'
-	__hdr__ = ( ('crid', 'i', 0),
-		('name', '32s', 0),
-	)
+    __byte_order__ = '@'
+    __hdr__ = (
+        ('crid', 'i',   0),
+        ('name', '32s', 0),
+    )
 
 class SessionOp(dpkt.Packet):
-	__byte_order__ = '@'
-	__hdr__ = ( ('cipher', 'I', 0),
-		('mac', 'I', 0),
-		('keylen', 'I', 0),
-		('key', 'P', 0),
-		('mackeylen', 'i', 0),
-		('mackey', 'P', 0),
-		('ses', 'I', 0),
-	)
+    __byte_order__ = '@'
+    __hdr__ = (
+        ('cipher',    'I', 0),
+        ('mac',       'I', 0),
+        ('keylen',    'I', 0),
+        ('key',       'P', 0),
+        ('mackeylen', 'i', 0),
+        ('mackey',    'P', 0),
+        ('ses',       'I', 0),
+    )
 
 class SessionOp2(dpkt.Packet):
-	__byte_order__ = '@'
-	__hdr__ = ( ('cipher', 'I', 0),
-		('mac', 'I', 0),
-		('keylen', 'I', 0),
-		('key', 'P', 0),
-		('mackeylen', 'i', 0),
-		('mackey', 'P', 0),
-		('ses', 'I', 0),
-		('crid', 'i', 0),
-		('pad0', 'i', 0),
-		('pad1', 'i', 0),
-		('pad2', 'i', 0),
-		('pad3', 'i', 0),
-	)
+    __byte_order__ = '@'
+    __hdr__ = (
+        ('cipher',    'I', 0),
+        ('mac',       'I', 0),
+        ('keylen',    'I', 0),
+        ('key',       'P', 0),
+        ('mackeylen', 'i', 0),
+        ('mackey',    'P', 0),
+        ('ses',       'I', 0),
+        ('crid',      'i', 0),
+        ('pad0',      'i', 0),
+        ('pad1',      'i', 0),
+        ('pad2',      'i', 0),
+        ('pad3',      'i', 0),
+    )
 
 class CryptOp(dpkt.Packet):
-	__byte_order__ = '@'
-	__hdr__ = ( ('ses', 'I', 0),
-		('op', 'H', 0),
-		('flags', 'H', 0),
-		('len', 'I', 0),
-		('src', 'P', 0),
-		('dst', 'P', 0),
-		('mac', 'P', 0),
-		('iv', 'P', 0),
-	)
+    __byte_order__ = '@'
+    __hdr__ = (
+        ('ses',   'I', 0),
+        ('op',    'H', 0),
+        ('flags', 'H', 0),
+        ('len',   'I', 0),
+        ('src',   'P', 0),
+        ('dst',   'P', 0),
+        ('mac',   'P', 0),
+        ('iv',    'P', 0),
+    )
 
 class CryptAEAD(dpkt.Packet):
-	__byte_order__ = '@'
-	__hdr__ = (
-		('ses',		'I', 0),
-		('op',		'H', 0),
-		('flags',	'H', 0),
-		('len',		'I', 0),
-		('aadlen',	'I', 0),
-		('ivlen',	'I', 0),
-		('src',		'P', 0),
-		('dst',		'P', 0),
-		('aad',		'P', 0),
-		('tag',		'P', 0),
-		('iv',		'P', 0),
-	)
+    __byte_order__ = '@'
+    __hdr__ = (
+        ('ses',    'I', 0),
+        ('op',     'H', 0),
+        ('flags',  'H', 0),
+        ('len',    'I', 0),
+        ('aadlen', 'I', 0),
+        ('ivlen',  'I', 0),
+        ('src',    'P', 0),
+        ('dst',    'P', 0),
+        ('aad',    'P', 0),
+        ('tag',    'P', 0),
+        ('iv',     'P', 0),
+    )
 
 # h2py.py can't handle multiarg macros
 CRIOGET = 3221513060
@@ -116,549 +122,546 @@ CIOCFINDDEV = 3223610220
 CIOCCRYPTAEAD = 3225445229
 
 def _getdev():
-	fd = os.open('/dev/crypto', os.O_RDWR)
-	buf = array.array('I', [0])
-	ioctl(fd, CRIOGET, buf, 1)
-	os.close(fd)
+    fd = os.open('/dev/crypto', os.O_RDWR)
+    buf = array.array('I', [0])
+    ioctl(fd, CRIOGET, buf, 1)
+    os.close(fd)
 
-	return buf[0]
+    return buf[0]
 
 _cryptodev = _getdev()
 
 def _findop(crid, name):
-	fop = FindOp()
-	fop.crid = crid
-	fop.name = name
-	s = array.array('B', fop.pack_hdr())
-	ioctl(_cryptodev, CIOCFINDDEV, s, 1)
-	fop.unpack(s)
+    fop = FindOp()
+    fop.crid = crid
+    fop.name = name
+    s = array.array('B', fop.pack_hdr())
+    ioctl(_cryptodev, CIOCFINDDEV, s, 1)
+    fop.unpack(s)
 
-	try:
-		idx = fop.name.index('\x00')
-		name = fop.name[:idx]
-	except ValueError:
-		name = fop.name
+    try:
+        idx = fop.name.index('\x00')
+        name = fop.name[:idx]
+    except ValueError:
+        name = fop.name
 
-	return fop.crid, name
+    return fop.crid, name
 
 class Crypto:
-	@staticmethod
-	def findcrid(name):
-		return _findop(-1, name)[0]
+    @staticmethod
+    def findcrid(name):
+        return _findop(-1, name)[0]
 
-	@staticmethod
-	def getcridname(crid):
-		return _findop(crid, '')[1]
+    @staticmethod
+    def getcridname(crid):
+        return _findop(crid, '')[1]
 
-	def __init__(self, cipher=0, key=None, mac=0, mackey=None,
-	    crid=CRYPTOCAP_F_SOFTWARE | CRYPTOCAP_F_HARDWARE, maclen=None):
-		self._ses = None
-		self._maclen = maclen
-		ses = SessionOp2()
-		ses.cipher = cipher
-		ses.mac = mac
+    def __init__(self, cipher=0, key=None, mac=0, mackey=None,
+        crid=CRYPTOCAP_F_SOFTWARE | CRYPTOCAP_F_HARDWARE, maclen=None):
+        self._ses = None
+        self._maclen = maclen
+        ses = SessionOp2()
+        ses.cipher = cipher
+        ses.mac = mac
 
-		if key is not None:
-			ses.keylen = len(key)
-			k = array.array('B', key)
-			ses.key = k.buffer_info()[0]
-		else:
-			self.key = None
+        if key is not None:
+            ses.keylen = len(key)
+            k = array.array('B', key)
+            ses.key = k.buffer_info()[0]
+        else:
+            self.key = None
 
-		if mackey is not None:
-			ses.mackeylen = len(mackey)
-			mk = array.array('B', mackey)
-			ses.mackey = mk.buffer_info()[0]
+        if mackey is not None:
+            ses.mackeylen = len(mackey)
+            mk = array.array('B', mackey)
+            ses.mackey = mk.buffer_info()[0]
 
-		if not cipher and not mac:
-			raise ValueError('one of cipher or mac MUST be specified.')
-		ses.crid = crid
-		#print(ses)
-		s = array.array('B', ses.pack_hdr())
-		#print(s)
-		ioctl(_cryptodev, CIOCGSESSION2, s, 1)
-		ses.unpack(s)
+        if not cipher and not mac:
+            raise ValueError('one of cipher or mac MUST be specified.')
+        ses.crid = crid
+        #print(ses)
+        s = array.array('B', ses.pack_hdr())
+        #print(s)
+        ioctl(_cryptodev, CIOCGSESSION2, s, 1)
+        ses.unpack(s)
 
-		self._ses = ses.ses
+        self._ses = ses.ses
 
-	def __del__(self):
-		if self._ses is None:
-			return
+    def __del__(self):
+        if self._ses is None:
+            return
 
-		try:
-			ioctl(_cryptodev, CIOCFSESSION, _pack('I', self._ses))
-		except TypeError:
-			pass
-		self._ses = None
+        try:
+            ioctl(_cryptodev, CIOCFSESSION, _pack('I', self._ses))
+        except TypeError:
+            pass
+        self._ses = None
 
-	def _doop(self, op, src, iv):
-		cop = CryptOp()
-		cop.ses = self._ses
-		cop.op = op
-		cop.flags = 0
-		cop.len = len(src)
-		s = array.array('B', src)
-		cop.src = cop.dst = s.buffer_info()[0]
-		if self._maclen is not None:
-			m = array.array('B', [0] * self._maclen)
-			cop.mac = m.buffer_info()[0]
-		ivbuf = array.array('B', iv)
-		cop.iv = ivbuf.buffer_info()[0]
+    def _doop(self, op, src, iv):
+        cop = CryptOp()
+        cop.ses = self._ses
+        cop.op = op
+        cop.flags = 0
+        cop.len = len(src)
+        s = array.array('B', src)
+        cop.src = cop.dst = s.buffer_info()[0]
+        if self._maclen is not None:
+            m = array.array('B', [0] * self._maclen)
+            cop.mac = m.buffer_info()[0]
+        ivbuf = array.array('B', iv)
+        cop.iv = ivbuf.buffer_info()[0]
 
-		#print('cop:', cop)
-		ioctl(_cryptodev, CIOCCRYPT, str(cop))
+        #print('cop:', cop)
+        ioctl(_cryptodev, CIOCCRYPT, str(cop))
 
-		s = s.tostring()
-		if self._maclen is not None:
-			return s, m.tostring()
+        s = s.tostring()
+        if self._maclen is not None:
+            return s, m.tostring()
 
-		return s
+        return s
 
-	def _doaead(self, op, src, aad, iv, tag=None):
-		caead = CryptAEAD()
-		caead.ses = self._ses
-		caead.op = op
-		caead.flags = CRD_F_IV_EXPLICIT
-		caead.flags = 0
-		caead.len = len(src)
-		s = array.array('B', src)
-		caead.src = caead.dst = s.buffer_info()[0]
-		caead.aadlen = len(aad)
-		saad = array.array('B', aad)
-		caead.aad = saad.buffer_info()[0]
+    def _doaead(self, op, src, aad, iv, tag=None):
+        caead = CryptAEAD()
+        caead.ses = self._ses
+        caead.op = op
+        caead.flags = CRD_F_IV_EXPLICIT
+        caead.flags = 0
+        caead.len = len(src)
+        s = array.array('B', src)
+        caead.src = caead.dst = s.buffer_info()[0]
+        caead.aadlen = len(aad)
+        saad = array.array('B', aad)
+        caead.aad = saad.buffer_info()[0]
 
-		if self._maclen is None:
-			raise ValueError('must have a tag length')
+        if self._maclen is None:
+            raise ValueError('must have a tag length')
 
-		if tag is None:
-			tag = array.array('B', [0] * self._maclen)
-		else:
-			assert len(tag) == self._maclen, \
+        if tag is None:
+            tag = array.array('B', [0] * self._maclen)
+        else:
+            assert len(tag) == self._maclen, \
                 '%d != %d' % (len(tag), self._maclen)
-			tag = array.array('B', tag)
+            tag = array.array('B', tag)
 
-		caead.tag = tag.buffer_info()[0]
+        caead.tag = tag.buffer_info()[0]
 
-		ivbuf = array.array('B', iv)
-		caead.ivlen = len(iv)
-		caead.iv = ivbuf.buffer_info()[0]
+        ivbuf = array.array('B', iv)
+        caead.ivlen = len(iv)
+        caead.iv = ivbuf.buffer_info()[0]
 
-		ioctl(_cryptodev, CIOCCRYPTAEAD, str(caead))
+        ioctl(_cryptodev, CIOCCRYPTAEAD, str(caead))
 
-		s = s.tostring()
+        s = s.tostring()
 
-		return s, tag.tostring()
+        return s, tag.tostring()
 
-	def perftest(self, op, size, timeo=3):
-		import random
-		import time
+    def perftest(self, op, size, timeo=3):
+        inp = array.array('B', (random.randint(0, 255) for x in xrange(size)))
+        out = array.array('B', inp)
 
-		inp = array.array('B', (random.randint(0, 255) for x in xrange(size)))
-		out = array.array('B', inp)
+        # prep ioctl
+        cop = CryptOp()
+        cop.ses = self._ses
+        cop.op = op
+        cop.flags = 0
+        cop.len = len(inp)
+        s = array.array('B', inp)
+        cop.src = s.buffer_info()[0]
+        cop.dst = out.buffer_info()[0]
+        if self._maclen is not None:
+            m = array.array('B', [0] * self._maclen)
+            cop.mac = m.buffer_info()[0]
+        ivbuf = array.array('B', (random.randint(0, 255) for x in xrange(16)))
+        cop.iv = ivbuf.buffer_info()[0]
 
-		# prep ioctl
-		cop = CryptOp()
-		cop.ses = self._ses
-		cop.op = op
-		cop.flags = 0
-		cop.len = len(inp)
-		s = array.array('B', inp)
-		cop.src = s.buffer_info()[0]
-		cop.dst = out.buffer_info()[0]
-		if self._maclen is not None:
-			m = array.array('B', [0] * self._maclen)
-			cop.mac = m.buffer_info()[0]
-		ivbuf = array.array('B', (random.randint(0, 255) for x in xrange(16)))
-		cop.iv = ivbuf.buffer_info()[0]
+        exit = [ False ]
+        def alarmhandle(a, b, exit=exit):
+            exit[0] = True
 
-		exit = [ False ]
-		def alarmhandle(a, b, exit=exit):
-			exit[0] = True
+        oldalarm = signal.signal(signal.SIGALRM, alarmhandle)
+        signal.alarm(timeo)
 
-		oldalarm = signal.signal(signal.SIGALRM, alarmhandle)
-		signal.alarm(timeo)
+        start = time.time()
+        reps = 0
+        while not exit[0]:
+            ioctl(_cryptodev, CIOCCRYPT, str(cop))
+            reps += 1
 
-		start = time.time()
-		reps = 0
-		while not exit[0]:
-			ioctl(_cryptodev, CIOCCRYPT, str(cop))
-			reps += 1
+        end = time.time()
 
-		end = time.time()
+        signal.signal(signal.SIGALRM, oldalarm)
 
-		signal.signal(signal.SIGALRM, oldalarm)
+        print('time:', end - start)
+        print('perf MB/sec:', (reps * size) / (end - start) / 1024 / 1024)
 
-		print('time:', end - start)
-		print('perf MB/sec:', (reps * size) / (end - start) / 1024 / 1024)
+    def encrypt(self, data, iv, aad=None):
+        if aad is None:
+            return self._doop(COP_ENCRYPT, data, iv)
+        else:
+            return self._doaead(COP_ENCRYPT, data, aad,
+                iv)
 
-	def encrypt(self, data, iv, aad=None):
-		if aad is None:
-			return self._doop(COP_ENCRYPT, data, iv)
-		else:
-			return self._doaead(COP_ENCRYPT, data, aad,
-			    iv)
+    def decrypt(self, data, iv, aad=None, tag=None):
+        if aad is None:
+            return self._doop(COP_DECRYPT, data, iv)
+        else:
+            return self._doaead(COP_DECRYPT, data, aad,
+                iv, tag=tag)
 
-	def decrypt(self, data, iv, aad=None, tag=None):
-		if aad is None:
-			return self._doop(COP_DECRYPT, data, iv)
-		else:
-			return self._doaead(COP_DECRYPT, data, aad,
-			    iv, tag=tag)
-
 class MismatchError(Exception):
-	pass
+    pass
 
 class KATParser:
-	def __init__(self, fname, fields):
-		self.fp = open(fname)
-		self.fields = set(fields)
-		self._pending = None
+    def __init__(self, fname, fields):
+        self.fp = open(fname)
+        self.fields = set(fields)
+        self._pending = None
 
-	def __iter__(self):
-		while True:
-			didread = False
-			if self._pending is not None:
-				i = self._pending
-				self._pending = None
-			else:
-				i = self.fp.readline()
-				didread = True
+    def __iter__(self):
+        while True:
+            didread = False
+            if self._pending is not None:
+                i = self._pending
+                self._pending = None
+            else:
+                i = self.fp.readline()
+                didread = True
 
-			if didread and not i:
-				return
+            if didread and not i:
+                return
 
-			if (i and i[0] == '#') or not i.strip():
-				continue
-			if i[0] == '[':
-				yield i[1:].split(']', 1)[0], self.fielditer()
-			else:
-				raise ValueError('unknown line: %r' % repr(i))
+            if (i and i[0] == '#') or not i.strip():
+                continue
+            if i[0] == '[':
+                yield i[1:].split(']', 1)[0], self.fielditer()
+            else:
+                raise ValueError('unknown line: %r' % repr(i))
 
-	def eatblanks(self):
-		while True:
-			line = self.fp.readline()
-			if line == '':
-				break
+    def eatblanks(self):
+        while True:
+            line = self.fp.readline()
+            if line == '':
+                break
 
-			line = line.strip()
-			if line:
-				break
+            line = line.strip()
+            if line:
+                break
 
-		return line
+        return line
 
-	def fielditer(self):
-		while True:
-			values = {}
+    def fielditer(self):
+        while True:
+            values = {}
 
-			line = self.eatblanks()
-			if not line or line[0] == '[':
-				self._pending = line
-				return
+            line = self.eatblanks()
+            if not line or line[0] == '[':
+                self._pending = line
+                return
 
-			while True:
-				try:
-					f, v = line.split(' =')
-				except:
-					if line == 'FAIL':
-						f, v = 'FAIL', ''
-					else:
-						print('line:', repr(line))
-						raise
-				v = v.strip()
+            while True:
+                try:
+                    f, v = line.split(' =')
+                except:
+                    if line == 'FAIL':
+                        f, v = 'FAIL', ''
+                    else:
+                        print('line:', repr(line))
+                        raise
+                v = v.strip()
 
-				if f in values:
-					raise ValueError('already present: %r' % repr(f))
-				values[f] = v
-				line = self.fp.readline().strip()
-				if not line:
-					break
+                if f in values:
+                    raise ValueError('already present: %r' % repr(f))
+                values[f] = v
+                line = self.fp.readline().strip()
+                if not line:
+                    break
 
-			# we should have everything
-			remain = self.fields.copy() - set(values.keys())
-			# XXX - special case GCM decrypt
-			if remain and not ('FAIL' in values and 'PT' in remain):
-				raise ValueError('not all fields found: %r' % repr(remain))
+            # we should have everything
+            remain = self.fields.copy() - set(values.keys())
+            # XXX - special case GCM decrypt
+            if remain and not ('FAIL' in values and 'PT' in remain):
+                raise ValueError('not all fields found: %r' % repr(remain))
 
-			yield values
+            yield values
 
 # The CCM files use a bit of a different syntax that doesn't quite fit
 # the generic KATParser.  In particular, some keys are set globally at
 # the start of the file, and some are set globally at the start of a
 # section.
 class KATCCMParser:
-	def __init__(self, fname):
-		self.fp = open(fname)
-		self._pending = None
-		self.read_globals()
+    def __init__(self, fname):
+        self.fp = open(fname)
+        self._pending = None
+        self.read_globals()
 
-	def read_globals(self):
-		self.global_values = {}
-		while True:
-			line = self.fp.readline()
-			if not line:
-				return
-			if line[0] == '#' or not line.strip():
-				continue
-			if line[0] == '[':
-				self._pending = line
-				return
+    def read_globals(self):
+        self.global_values = {}
+        while True:
+            line = self.fp.readline()
+            if not line:
+                return
+            if line[0] == '#' or not line.strip():
+                continue
+            if line[0] == '[':
+                self._pending = line
+                return
 
-			try:
-				f, v = line.split(' =')
-			except:
-				print('line:', repr(line))
-				raise
+            try:
+                f, v = line.split(' =')
+            except:
+                print('line:', repr(line))
+                raise
 
-			v = v.strip()
+            v = v.strip()
 
-			if f in self.global_values:
-				raise ValueError('already present: %r' % repr(f))
-			self.global_values[f] = v
+            if f in self.global_values:
+                raise ValueError('already present: %r' % repr(f))
+            self.global_values[f] = v
 
-	def read_section_values(self, kwpairs):
-		self.section_values = self.global_values.copy()
-		for pair in kwpairs.split(', '):
-			f, v = pair.split(' = ')
-			if f in self.section_values:
-				raise ValueError('already present: %r' % repr(f))
-			self.section_values[f] = v
+    def read_section_values(self, kwpairs):
+        self.section_values = self.global_values.copy()
+        for pair in kwpairs.split(', '):
+            f, v = pair.split(' = ')
+            if f in self.section_values:
+                raise ValueError('already present: %r' % repr(f))
+            self.section_values[f] = v
 
-		while True:
-			line = self.fp.readline()
-			if not line:
-				return
-			if line[0] == '#' or not line.strip():
-				continue
-			if line[0] == '[':
-				self._pending = line
-				return
+        while True:
+            line = self.fp.readline()
+            if not line:
+                return
+            if line[0] == '#' or not line.strip():
+                continue
+            if line[0] == '[':
+                self._pending = line
+                return
 
-			try:
-				f, v = line.split(' =')
-			except:
-				print('line:', repr(line))
-				raise
+            try:
+                f, v = line.split(' =')
+            except:
+                print('line:', repr(line))
+                raise
 
-			if f == 'Count':
-				self._pending = line
-				return
+            if f == 'Count':
+                self._pending = line
+                return
 
-			v = v.strip()
+            v = v.strip()
 
-			if f in self.section_values:
-				raise ValueError('already present: %r' % repr(f))
-			self.section_values[f] = v
+            if f in self.section_values:
+                raise ValueError('already present: %r' % repr(f))
+            self.section_values[f] = v
 
-	def __iter__(self):
-		while True:
-			if self._pending:
-				line = self._pending
-				self._pending = None
-			else:
-				line = self.fp.readline()
-				if not line:
-					return
+    def __iter__(self):
+        while True:
+            if self._pending:
+                line = self._pending
+                self._pending = None
+            else:
+                line = self.fp.readline()
+                if not line:
+                    return
 
-			if (line and line[0] == '#') or not line.strip():
-				continue
+            if (line and line[0] == '#') or not line.strip():
+                continue
 
-			if line[0] == '[':
-				section = line[1:].split(']', 1)[0]
-				self.read_section_values(section)
-				continue
+            if line[0] == '[':
+                section = line[1:].split(']', 1)[0]
+                self.read_section_values(section)
+                continue
 
-			values = self.section_values.copy()
+            values = self.section_values.copy()
 
-			while True:
-				try:
-					f, v = line.split(' =')
-				except:
-					print('line:', repr(line))
-					raise
-				v = v.strip()
+            while True:
+                try:
+                    f, v = line.split(' =')
+                except:
+                    print('line:', repr(line))
+                    raise
+                v = v.strip()
 
-				if f in values:
-					raise ValueError('already present: %r' % repr(f))
-				values[f] = v
-				line = self.fp.readline().strip()
-				if not line:
-					break
+                if f in values:
+                    raise ValueError('already present: %r' % repr(f))
+                values[f] = v
+                line = self.fp.readline().strip()
+                if not line:
+                    break
 
-			yield values
+            yield values
 
 
 def _spdechex(s):
-	return ''.join(s.split()).decode('hex')
+    return ''.join(s.split()).decode('hex')
 
 if __name__ == '__main__':
-	if True:
-		try:
-			crid = Crypto.findcrid('aesni0')
-			print('aesni:', crid)
-		except IOError:
-			print('aesni0 not found')
+    if True:
+        try:
+            crid = Crypto.findcrid('aesni0')
+            print('aesni:', crid)
+        except IOError:
+            print('aesni0 not found')
 
-		for i in xrange(10):
-			try:
-				name = Crypto.getcridname(i)
-				print('%2d: %r' % (i, repr(name)))
-			except IOError:
-				pass
-	elif False:
-		kp = KATParser('/usr/home/jmg/aesni.testing/format tweak value input - data unit seq no/XTSGenAES128.rsp', [ 'COUNT', 'DataUnitLen', 'Key', 'DataUnitSeqNumber', 'PT', 'CT' ])
-		for mode, ni in kp:
-			print(i, ni)
-			for j in ni:
-				print(j)
-	elif False:
-		key = _spdechex('c939cc13397c1d37de6ae0e1cb7c423c')
-		iv = _spdechex('00000000000000000000000000000001')
-		pt = _spdechex('ab3cabed693a32946055524052afe3c9cb49664f09fc8b7da824d924006b7496353b8c1657c5dec564d8f38d7432e1de35aae9d95590e66278d4acce883e51abaf94977fcd3679660109a92bf7b2973ccd547f065ec6cee4cb4a72a5e9f45e615d920d76cb34cba482467b3e21422a7242e7d931330c0fbf465c3a3a46fae943029fd899626dda542750a1eee253df323c6ef1573f1c8c156613e2ea0a6cdbf2ae9701020be2d6a83ecb7f3f9d8e')
-		#pt = _spdechex('00000000000000000000000000000000')
-		ct = _spdechex('f42c33853ecc5ce2949865fdb83de3bff1089e9360c94f830baebfaff72836ab5236f77212f1e7396c8c54ac73d81986375a6e9e299cfeca5ba051ed25e8d1affa5beaf6c1d2b45e90802408f2ced21663497e906de5f29341e5e52ddfea5363d628b3eb7806835e17bae051b3a6da3f8e2941fe44384eac17a9d298d2c331ca8320c775b5d53263a5e905059d891b21dede2d8110fd427c7bd5a9a274ddb47b1945ee79522203b6e297d0e399ef')
+        for i in xrange(10):
+            try:
+                name = Crypto.getcridname(i)
+                print('%2d: %r' % (i, repr(name)))
+            except IOError:
+                pass
+    elif False:
+        kp = KATParser('/usr/home/jmg/aesni.testing/format tweak value input - data unit seq no/XTSGenAES128.rsp', [ 'COUNT', 'DataUnitLen', 'Key', 'DataUnitSeqNumber', 'PT', 'CT' ])
+        for mode, ni in kp:
+            print(i, ni)
+            for j in ni:
+                print(j)
+    elif False:
+        key = _spdechex('c939cc13397c1d37de6ae0e1cb7c423c')
+        iv = _spdechex('00000000000000000000000000000001')
+        pt = _spdechex('ab3cabed693a32946055524052afe3c9cb49664f09fc8b7da824d924006b7496353b8c1657c5dec564d8f38d7432e1de35aae9d95590e66278d4acce883e51abaf94977fcd3679660109a92bf7b2973ccd547f065ec6cee4cb4a72a5e9f45e615d920d76cb34cba482467b3e21422a7242e7d931330c0fbf465c3a3a46fae943029fd899626dda542750a1eee253df323c6ef1573f1c8c156613e2ea0a6cdbf2ae9701020be2d6a83ecb7f3f9d8e')
+        #pt = _spdechex('00000000000000000000000000000000')
+        ct = _spdechex('f42c33853ecc5ce2949865fdb83de3bff1089e9360c94f830baebfaff72836ab5236f77212f1e7396c8c54ac73d81986375a6e9e299cfeca5ba051ed25e8d1affa5beaf6c1d2b45e90802408f2ced21663497e906de5f29341e5e52ddfea5363d628b3eb7806835e17bae051b3a6da3f8e2941fe44384eac17a9d298d2c331ca8320c775b5d53263a5e905059d891b21dede2d8110fd427c7bd5a9a274ddb47b1945ee79522203b6e297d0e399ef')
 
-		c = Crypto(CRYPTO_AES_ICM, key)
-		enc = c.encrypt(pt, iv)
+        c = Crypto(CRYPTO_AES_ICM, key)
+        enc = c.encrypt(pt, iv)
 
-		print('enc:', enc.encode('hex'))
-		print(' ct:', ct.encode('hex'))
+        print('enc:', enc.encode('hex'))
+        print(' ct:', ct.encode('hex'))
 
-		assert ct == enc
+        assert ct == enc
 
-		dec = c.decrypt(ct, iv)
+        dec = c.decrypt(ct, iv)
 
-		print('dec:', dec.encode('hex'))
-		print(' pt:', pt.encode('hex'))
+        print('dec:', dec.encode('hex'))
+        print(' pt:', pt.encode('hex'))
 
-		assert pt == dec
-	elif False:
-		key = _spdechex('c939cc13397c1d37de6ae0e1cb7c423c')
-		iv = _spdechex('00000000000000000000000000000001')
-		pt = _spdechex('ab3cabed693a32946055524052afe3c9cb49664f09fc8b7da824d924006b7496353b8c1657c5dec564d8f38d7432e1de35aae9d95590e66278d4acce883e51abaf94977fcd3679660109a92bf7b2973ccd547f065ec6cee4cb4a72a5e9f45e615d920d76cb34cba482467b3e21422a7242e7d931330c0fbf465c3a3a46fae943029fd899626dda542750a1eee253df323c6ef1573f1c8c156613e2ea0a6cdbf2ae9701020be2d6a83ecb7f3f9d8e0a3f')
-		#pt = _spdechex('00000000000000000000000000000000')
-		ct = _spdechex('f42c33853ecc5ce2949865fdb83de3bff1089e9360c94f830baebfaff72836ab5236f77212f1e7396c8c54ac73d81986375a6e9e299cfeca5ba051ed25e8d1affa5beaf6c1d2b45e90802408f2ced21663497e906de5f29341e5e52ddfea5363d628b3eb7806835e17bae051b3a6da3f8e2941fe44384eac17a9d298d2c331ca8320c775b5d53263a5e905059d891b21dede2d8110fd427c7bd5a9a274ddb47b1945ee79522203b6e297d0e399ef3768')
+        assert pt == dec
+    elif False:
+        key = _spdechex('c939cc13397c1d37de6ae0e1cb7c423c')
+        iv = _spdechex('00000000000000000000000000000001')
+        pt = _spdechex('ab3cabed693a32946055524052afe3c9cb49664f09fc8b7da824d924006b7496353b8c1657c5dec564d8f38d7432e1de35aae9d95590e66278d4acce883e51abaf94977fcd3679660109a92bf7b2973ccd547f065ec6cee4cb4a72a5e9f45e615d920d76cb34cba482467b3e21422a7242e7d931330c0fbf465c3a3a46fae943029fd899626dda542750a1eee253df323c6ef1573f1c8c156613e2ea0a6cdbf2ae9701020be2d6a83ecb7f3f9d8e0a3f')
+        #pt = _spdechex('00000000000000000000000000000000')
+        ct = _spdechex('f42c33853ecc5ce2949865fdb83de3bff1089e9360c94f830baebfaff72836ab5236f77212f1e7396c8c54ac73d81986375a6e9e299cfeca5ba051ed25e8d1affa5beaf6c1d2b45e90802408f2ced21663497e906de5f29341e5e52ddfea5363d628b3eb7806835e17bae051b3a6da3f8e2941fe44384eac17a9d298d2c331ca8320c775b5d53263a5e905059d891b21dede2d8110fd427c7bd5a9a274ddb47b1945ee79522203b6e297d0e399ef3768')
 
-		c = Crypto(CRYPTO_AES_ICM, key)
-		enc = c.encrypt(pt, iv)
+        c = Crypto(CRYPTO_AES_ICM, key)
+        enc = c.encrypt(pt, iv)
 
-		print('enc:', enc.encode('hex'))
-		print(' ct:', ct.encode('hex'))
+        print('enc:', enc.encode('hex'))
+        print(' ct:', ct.encode('hex'))
 
-		assert ct == enc
+        assert ct == enc
 
-		dec = c.decrypt(ct, iv)
+        dec = c.decrypt(ct, iv)
 
-		print('dec:', dec.encode('hex'))
-		print(' pt:', pt.encode('hex'))
+        print('dec:', dec.encode('hex'))
+        print(' pt:', pt.encode('hex'))
 
-		assert pt == dec
-	elif False:
-		key = _spdechex('c939cc13397c1d37de6ae0e1cb7c423c')
-		iv = _spdechex('6eba2716ec0bd6fa5cdef5e6d3a795bc')
-		pt = _spdechex('ab3cabed693a32946055524052afe3c9cb49664f09fc8b7da824d924006b7496353b8c1657c5dec564d8f38d7432e1de35aae9d95590e66278d4acce883e51abaf94977fcd3679660109a92bf7b2973ccd547f065ec6cee4cb4a72a5e9f45e615d920d76cb34cba482467b3e21422a7242e7d931330c0fbf465c3a3a46fae943029fd899626dda542750a1eee253df323c6ef1573f1c8c156613e2ea0a6cdbf2ae9701020be2d6a83ecb7f3f9d8e0a3f')
-		ct = _spdechex('f1f81f12e72e992dbdc304032705dc75dc3e4180eff8ee4819906af6aee876d5b00b7c36d282a445ce3620327be481e8e53a8e5a8e5ca9abfeb2281be88d12ffa8f46d958d8224738c1f7eea48bda03edbf9adeb900985f4fa25648b406d13a886c25e70cfdecdde0ad0f2991420eb48a61c64fd797237cf2798c2675b9bb744360b0a3f329ac53bbceb4e3e7456e6514f1a9d2f06c236c31d0f080b79c15dce1096357416602520daa098b17d1af427')
-		c = Crypto(CRYPTO_AES_CBC, key)
+        assert pt == dec
+    elif False:
+        key = _spdechex('c939cc13397c1d37de6ae0e1cb7c423c')
+        iv = _spdechex('6eba2716ec0bd6fa5cdef5e6d3a795bc')
+        pt = _spdechex('ab3cabed693a32946055524052afe3c9cb49664f09fc8b7da824d924006b7496353b8c1657c5dec564d8f38d7432e1de35aae9d95590e66278d4acce883e51abaf94977fcd3679660109a92bf7b2973ccd547f065ec6cee4cb4a72a5e9f45e615d920d76cb34cba482467b3e21422a7242e7d931330c0fbf465c3a3a46fae943029fd899626dda542750a1eee253df323c6ef1573f1c8c156613e2ea0a6cdbf2ae9701020be2d6a83ecb7f3f9d8e0a3f')
+        ct = _spdechex('f1f81f12e72e992dbdc304032705dc75dc3e4180eff8ee4819906af6aee876d5b00b7c36d282a445ce3620327be481e8e53a8e5a8e5ca9abfeb2281be88d12ffa8f46d958d8224738c1f7eea48bda03edbf9adeb900985f4fa25648b406d13a886c25e70cfdecdde0ad0f2991420eb48a61c64fd797237cf2798c2675b9bb744360b0a3f329ac53bbceb4e3e7456e6514f1a9d2f06c236c31d0f080b79c15dce1096357416602520daa098b17d1af427')
+        c = Crypto(CRYPTO_AES_CBC, key)
 
-		enc = c.encrypt(pt, iv)
+        enc = c.encrypt(pt, iv)
 
-		print('enc:', enc.encode('hex'))
-		print(' ct:', ct.encode('hex'))
+        print('enc:', enc.encode('hex'))
+        print(' ct:', ct.encode('hex'))
 
-		assert ct == enc
+        assert ct == enc
 
-		dec = c.decrypt(ct, iv)
+        dec = c.decrypt(ct, iv)
 
-		print('dec:', dec.encode('hex'))
-		print(' pt:', pt.encode('hex'))
+        print('dec:', dec.encode('hex'))
+        print(' pt:', pt.encode('hex'))
 
-		assert pt == dec
-	elif False:
-		key = _spdechex('c939cc13397c1d37de6ae0e1cb7c423c')
-		iv = _spdechex('b3d8cc017cbb89b39e0f67e2')
-		pt = _spdechex('c3b3c41f113a31b73d9a5cd4321030')
-		aad = _spdechex('24825602bd12a984e0092d3e448eda5f')
-		ct = _spdechex('93fe7d9e9bfd10348a5606e5cafa7354')
-		ct = _spdechex('93fe7d9e9bfd10348a5606e5cafa73')
-		tag = _spdechex('0032a1dc85f1c9786925a2e71d8272dd')
-		tag = _spdechex('8d11a0929cb3fbe1fef01a4a38d5f8ea')
+        assert pt == dec
+    elif False:
+        key = _spdechex('c939cc13397c1d37de6ae0e1cb7c423c')
+        iv = _spdechex('b3d8cc017cbb89b39e0f67e2')
+        pt = _spdechex('c3b3c41f113a31b73d9a5cd4321030')
+        aad = _spdechex('24825602bd12a984e0092d3e448eda5f')
+        ct = _spdechex('93fe7d9e9bfd10348a5606e5cafa7354')
+        ct = _spdechex('93fe7d9e9bfd10348a5606e5cafa73')
+        tag = _spdechex('0032a1dc85f1c9786925a2e71d8272dd')
+        tag = _spdechex('8d11a0929cb3fbe1fef01a4a38d5f8ea')
 
-		c = Crypto(CRYPTO_AES_NIST_GCM_16, key,
-		    mac=CRYPTO_AES_128_NIST_GMAC, mackey=key)
+        c = Crypto(CRYPTO_AES_NIST_GCM_16, key,
+            mac=CRYPTO_AES_128_NIST_GMAC, mackey=key)
 
-		enc, enctag = c.encrypt(pt, iv, aad=aad)
+        enc, enctag = c.encrypt(pt, iv, aad=aad)
 
-		print('enc:', enc.encode('hex'))
-		print(' ct:', ct.encode('hex'))
+        print('enc:', enc.encode('hex'))
+        print(' ct:', ct.encode('hex'))
 
-		assert enc == ct
+        assert enc == ct
 
-		print('etg:', enctag.encode('hex'))
-		print('tag:', tag.encode('hex'))
-		assert enctag == tag
+        print('etg:', enctag.encode('hex'))
+        print('tag:', tag.encode('hex'))
+        assert enctag == tag
 
-		# Make sure we get EBADMSG
-		#enctag = enctag[:-1] + 'a'
-		dec, dectag = c.decrypt(ct, iv, aad=aad, tag=enctag)
+        # Make sure we get EBADMSG
+        #enctag = enctag[:-1] + 'a'
+        dec, dectag = c.decrypt(ct, iv, aad=aad, tag=enctag)
 
-		print('dec:', dec.encode('hex'))
-		print(' pt:', pt.encode('hex'))
+        print('dec:', dec.encode('hex'))
+        print(' pt:', pt.encode('hex'))
 
-		assert dec == pt
+        assert dec == pt
 

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