clang-r416183b/python3/Lib/secrets.py - platform/prebuilts/clang/host/windows-x86 - Git at Google

 """Generate cryptographically strong pseudo-random numbers suitable for
 managing secrets such as account authentication, tokens, and similar.

 See PEP 506 for more information.
 https://www.python.org/dev/peps/pep-0506/

 """

 __all__ = ['choice', 'randbelow', 'randbits', 'SystemRandom',
            'token_bytes', 'token_hex', 'token_urlsafe',
            'compare_digest',
            ]


 import base64
 import binascii

 from hmac import compare_digest
 from random import SystemRandom

 _sysrand = SystemRandom()

 randbits = _sysrand.getrandbits
 choice = _sysrand.choice

 def randbelow(exclusive_upper_bound):
     """Return a random int in the range [0, n)."""
     if exclusive_upper_bound <= 0:
         raise ValueError("Upper bound must be positive.")
     return _sysrand._randbelow(exclusive_upper_bound)

 DEFAULT_ENTROPY = 32  # number of bytes to return by default

 def token_bytes(nbytes=None):
     """Return a random byte string containing *nbytes* bytes.

     If *nbytes* is ``None`` or not supplied, a reasonable
     default is used.

     >>> token_bytes(16)  #doctest:+SKIP
     b'\\xebr\\x17D*t\\xae\\xd4\\xe3S\\xb6\\xe2\\xebP1\\x8b'

     """
     if nbytes is None:
         nbytes = DEFAULT_ENTROPY
     return _sysrand.randbytes(nbytes)

 def token_hex(nbytes=None):
     """Return a random text string, in hexadecimal.

     The string has *nbytes* random bytes, each byte converted to two
     hex digits.  If *nbytes* is ``None`` or not supplied, a reasonable
     default is used.

     >>> token_hex(16)  #doctest:+SKIP
     'f9bf78b9a18ce6d46a0cd2b0b86df9da'

     """
     return binascii.hexlify(token_bytes(nbytes)).decode('ascii')

 def token_urlsafe(nbytes=None):
     """Return a random URL-safe text string, in Base64 encoding.

     The string has *nbytes* random bytes.  If *nbytes* is ``None``
     or not supplied, a reasonable default is used.

     >>> token_urlsafe(16)  #doctest:+SKIP
     'Drmhze6EPcv0fN_81Bj-nA'

     """
     tok = token_bytes(nbytes)
     return base64.urlsafe_b64encode(tok).rstrip(b'=').decode('ascii')
	"""Generate cryptographically strong pseudo-random numbers suitable for
	managing secrets such as account authentication, tokens, and similar.

	See PEP 506 for more information.
	https://www.python.org/dev/peps/pep-0506/

	"""

	__all__ = ['choice', 'randbelow', 'randbits', 'SystemRandom',
	'token_bytes', 'token_hex', 'token_urlsafe',
	'compare_digest',
	]


	import base64
	import binascii

	from hmac import compare_digest
	from random import SystemRandom

	_sysrand = SystemRandom()

	randbits = _sysrand.getrandbits
	choice = _sysrand.choice

	def randbelow(exclusive_upper_bound):
	"""Return a random int in the range [0, n)."""
	if exclusive_upper_bound <= 0:
	raise ValueError("Upper bound must be positive.")
	return _sysrand._randbelow(exclusive_upper_bound)

	DEFAULT_ENTROPY = 32 # number of bytes to return by default

	def token_bytes(nbytes=None):
	"""Return a random byte string containing nbytes bytes.

	If nbytes is ``None`` or not supplied, a reasonable
	default is used.

	>>> token_bytes(16) #doctest:+SKIP
	b'\\xebr\\x17D*t\\xae\\xd4\\xe3S\\xb6\\xe2\\xebP1\\x8b'

	"""
	if nbytes is None:
	nbytes = DEFAULT_ENTROPY
	return _sysrand.randbytes(nbytes)

	def token_hex(nbytes=None):
	"""Return a random text string, in hexadecimal.

	The string has nbytes random bytes, each byte converted to two
	hex digits. If nbytes is ``None`` or not supplied, a reasonable
	default is used.

	>>> token_hex(16) #doctest:+SKIP
	'f9bf78b9a18ce6d46a0cd2b0b86df9da'

	"""
	return binascii.hexlify(token_bytes(nbytes)).decode('ascii')

	def token_urlsafe(nbytes=None):
	"""Return a random URL-safe text string, in Base64 encoding.

	The string has nbytes random bytes. If nbytes is ``None``
	or not supplied, a reasonable default is used.

	>>> token_urlsafe(16) #doctest:+SKIP
	'Drmhze6EPcv0fN_81Bj-nA'

	"""
	tok = token_bytes(nbytes)
	return base64.urlsafe_b64encode(tok).rstrip(b'=').decode('ascii')