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Python transform.bytes2int方法代码示例

本文整理汇总了Python中rsa.transform.bytes2int方法的典型用法代码示例。如果您正苦于以下问题:Python transform.bytes2int方法的具体用法?Python transform.bytes2int怎么用?Python transform.bytes2int使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在rsa.transform的用法示例。


在下文中一共展示了transform.bytes2int方法的10个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。

示例1: extract_raw_hash

# 需要导入模块: from rsa import transform [as 别名]
# 或者: from rsa.transform import bytes2int [as 别名]
def extract_raw_hash(signature, pub_key, is_sha256):
    hash_size = SHA256_HASH_SIZE if is_sha256 else SHA1_HASH_SIZE
    keylength = common.byte_size(pub_key.n)
    encrypted = transform.bytes2int(signature)
    decrypted = core.decrypt_int(encrypted, pub_key.e, pub_key.n)
    clearsig = transform.int2bytes(decrypted, keylength)
    # unpad
    if (clearsig[0] != '\x00' or clearsig[1] != '\x01'):
        raise Exception('Invalid signature format')

    null_idx = clearsig.find('\x00', 2)
    if null_idx < 0:
        raise Exception('Invalid signature format')

    padding = clearsig[2:null_idx]
    if len(padding) != keylength - 2 - 1 - hash_size:
        raise Exception('Invalid signature format')
    if not all(p == '\xff' for p in padding):
        raise Exception('Invalid signature format')

    raw_hash = clearsig[null_idx + 1:]
    if len(raw_hash) != hash_size:
        raise Exception('Invalid signature format.')

    return raw_hash 
开发者ID:nelenkov,项目名称:aboot-parser,代码行数:27,代码来源:parse-aboot.py

示例2: sign_hash

# 需要导入模块: from rsa import transform [as 别名]
# 或者: from rsa.transform import bytes2int [as 别名]
def sign_hash(hash_value, priv_key, hash_method):
    """Signs a precomputed hash with the private key.

    Hashes the message, then signs the hash with the given key. This is known
    as a "detached signature", because the message itself isn't altered.

    :param hash_value: A precomputed hash to sign (ignores message). Should be set to
        None if needing to hash and sign message.
    :param priv_key: the :py:class:`rsa.PrivateKey` to sign with
    :param hash_method: the hash method used on the message. Use 'MD5', 'SHA-1',
        'SHA-224', SHA-256', 'SHA-384' or 'SHA-512'.
    :return: a message signature block.
    :raise OverflowError: if the private key is too small to contain the
        requested hash.

    """

    # Get the ASN1 code for this hash method
    if hash_method not in HASH_ASN1:
        raise ValueError('Invalid hash method: %s' % hash_method)
    asn1code = HASH_ASN1[hash_method]

    # Encrypt the hash with the private key
    cleartext = asn1code + hash_value
    keylength = common.byte_size(priv_key.n)
    padded = _pad_for_signing(cleartext, keylength)

    payload = transform.bytes2int(padded)
    encrypted = priv_key.encrypt(payload)
    print('sign_hash: encrypted')
    block = transform.int2bytes(encrypted, keylength)
    print('sign_hash: int2bytes finished')
    
    return block 
开发者ID:artem-smotrakov,项目名称:esp32-weather-google-sheets,代码行数:36,代码来源:pkcs1.py

示例3: read_random_int

# 需要导入模块: from rsa import transform [as 别名]
# 或者: from rsa.transform import bytes2int [as 别名]
def read_random_int(nbits):
    """Reads a random integer of approximately nbits bits.
    """

    randomdata = read_random_bits(nbits)
    value = transform.bytes2int(randomdata)

    # Ensure that the number is large enough to just fill out the required
    # number of bits.
    value |= 1 << (nbits - 1)

    return value 
开发者ID:Deltares,项目名称:aqua-monitor,代码行数:14,代码来源:randnum.py

示例4: encrypt

# 需要导入模块: from rsa import transform [as 别名]
# 或者: from rsa.transform import bytes2int [as 别名]
def encrypt(message, pub_key):
    """Encrypts the given message using PKCS#1 v1.5

    :param message: the message to encrypt. Must be a byte string no longer than
        ``k-11`` bytes, where ``k`` is the number of bytes needed to encode
        the ``n`` component of the public key.
    :param pub_key: the :py:class:`rsa.PublicKey` to encrypt with.
    :raise OverflowError: when the message is too large to fit in the padded
        block.

    >>> from rsa import key, common
    >>> (pub_key, priv_key) = key.newkeys(256)
    >>> message = b'hello'
    >>> crypto = encrypt(message, pub_key)

    The crypto text should be just as long as the public key 'n' component:

    >>> len(crypto) == common.byte_size(pub_key.n)
    True

    """

    keylength = common.byte_size(pub_key.n)
    padded = _pad_for_encryption(message, keylength)

    payload = transform.bytes2int(padded)
    encrypted = core.encrypt_int(payload, pub_key.e, pub_key.n)
    block = transform.int2bytes(encrypted, keylength)

    return block 
开发者ID:Deltares,项目名称:aqua-monitor,代码行数:32,代码来源:pkcs1.py

示例5: sign

# 需要导入模块: from rsa import transform [as 别名]
# 或者: from rsa.transform import bytes2int [as 别名]
def sign(message, priv_key, hash):
    """Signs the message with the private key.

    Hashes the message, then signs the hash with the given key. This is known
    as a "detached signature", because the message itself isn't altered.

    :param message: the message to sign. Can be an 8-bit string or a file-like
        object. If ``message`` has a ``read()`` method, it is assumed to be a
        file-like object.
    :param priv_key: the :py:class:`rsa.PrivateKey` to sign with
    :param hash: the hash method used on the message. Use 'MD5', 'SHA-1',
        'SHA-256', 'SHA-384' or 'SHA-512'.
    :return: a message signature block.
    :raise OverflowError: if the private key is too small to contain the
        requested hash.

    """

    # Get the ASN1 code for this hash method
    if hash not in HASH_ASN1:
        raise ValueError('Invalid hash method: %s' % hash)
    asn1code = HASH_ASN1[hash]

    # Calculate the hash
    hash = _hash(message, hash)

    # Encrypt the hash with the private key
    cleartext = asn1code + hash
    keylength = common.byte_size(priv_key.n)
    padded = _pad_for_signing(cleartext, keylength)

    payload = transform.bytes2int(padded)
    encrypted = priv_key.blinded_encrypt(payload)
    block = transform.int2bytes(encrypted, keylength)

    return block 
开发者ID:Deltares,项目名称:aqua-monitor,代码行数:38,代码来源:pkcs1.py

示例6: verify

# 需要导入模块: from rsa import transform [as 别名]
# 或者: from rsa.transform import bytes2int [as 别名]
def verify(message, signature, pub_key):
    """Verifies that the signature matches the message.

    The hash method is detected automatically from the signature.

    :param message: the signed message. Can be an 8-bit string or a file-like
        object. If ``message`` has a ``read()`` method, it is assumed to be a
        file-like object.
    :param signature: the signature block, as created with :py:func:`rsa.sign`.
    :param pub_key: the :py:class:`rsa.PublicKey` of the person signing the message.
    :raise VerificationError: when the signature doesn't match the message.

    """

    keylength = common.byte_size(pub_key.n)
    encrypted = transform.bytes2int(signature)
    decrypted = core.decrypt_int(encrypted, pub_key.e, pub_key.n)
    clearsig = transform.int2bytes(decrypted, keylength)

    # Get the hash method
    method_name = _find_method_hash(clearsig)
    message_hash = _hash(message, method_name)

    # Reconstruct the expected padded hash
    cleartext = HASH_ASN1[method_name] + message_hash
    expected = _pad_for_signing(cleartext, keylength)

    # Compare with the signed one
    if expected != clearsig:
        raise VerificationError('Verification failed')

    return True 
开发者ID:Deltares,项目名称:aqua-monitor,代码行数:34,代码来源:pkcs1.py

示例7: read_random_int

# 需要导入模块: from rsa import transform [as 别名]
# 或者: from rsa.transform import bytes2int [as 别名]
def read_random_int(nbits):
    '''Reads a random integer of approximately nbits bits.
    '''

    randomdata = read_random_bits(nbits)
    value = transform.bytes2int(randomdata)

    # Ensure that the number is large enough to just fill out the required
    # number of bits.
    value |= 1 << (nbits - 1)

    return value 
开发者ID:deadblue,项目名称:baidupan_shell,代码行数:14,代码来源:randnum.py

示例8: encrypt

# 需要导入模块: from rsa import transform [as 别名]
# 或者: from rsa.transform import bytes2int [as 别名]
def encrypt(message, pub_key):
    '''Encrypts the given message using PKCS#1 v1.5
    
    :param message: the message to encrypt. Must be a byte string no longer than
        ``k-11`` bytes, where ``k`` is the number of bytes needed to encode
        the ``n`` component of the public key.
    :param pub_key: the :py:class:`rsa.PublicKey` to encrypt with.
    :raise OverflowError: when the message is too large to fit in the padded
        block.
        
    >>> from rsa import key, common
    >>> (pub_key, priv_key) = key.newkeys(256)
    >>> message = 'hello'
    >>> crypto = encrypt(message, pub_key)
    
    The crypto text should be just as long as the public key 'n' component:

    >>> len(crypto) == common.byte_size(pub_key.n)
    True
    
    '''
    
    keylength = common.byte_size(pub_key.n)
    padded = _pad_for_encryption(message, keylength)
    
    payload = transform.bytes2int(padded)
    encrypted = core.encrypt_int(payload, pub_key.e, pub_key.n)
    block = transform.int2bytes(encrypted, keylength)
    
    return block 
开发者ID:deadblue,项目名称:baidupan_shell,代码行数:32,代码来源:pkcs1.py

示例9: sign

# 需要导入模块: from rsa import transform [as 别名]
# 或者: from rsa.transform import bytes2int [as 别名]
def sign(message, priv_key, hash):
    '''Signs the message with the private key.

    Hashes the message, then signs the hash with the given key. This is known
    as a "detached signature", because the message itself isn't altered.
    
    :param message: the message to sign. Can be an 8-bit string or a file-like
        object. If ``message`` has a ``read()`` method, it is assumed to be a
        file-like object.
    :param priv_key: the :py:class:`rsa.PrivateKey` to sign with
    :param hash: the hash method used on the message. Use 'MD5', 'SHA-1',
        'SHA-256', 'SHA-384' or 'SHA-512'.
    :return: a message signature block.
    :raise OverflowError: if the private key is too small to contain the
        requested hash.

    '''

    # Get the ASN1 code for this hash method
    if hash not in HASH_ASN1:
        raise ValueError('Invalid hash method: %s' % hash)
    asn1code = HASH_ASN1[hash]
    
    # Calculate the hash
    hash = _hash(message, hash)

    # Encrypt the hash with the private key
    cleartext = asn1code + hash
    keylength = common.byte_size(priv_key.n)
    padded = _pad_for_signing(cleartext, keylength)
    
    payload = transform.bytes2int(padded)
    encrypted = core.encrypt_int(payload, priv_key.d, priv_key.n)
    block = transform.int2bytes(encrypted, keylength)
    
    return block 
开发者ID:deadblue,项目名称:baidupan_shell,代码行数:38,代码来源:pkcs1.py

示例10: verify

# 需要导入模块: from rsa import transform [as 别名]
# 或者: from rsa.transform import bytes2int [as 别名]
def verify(message, signature, pub_key):
    '''Verifies that the signature matches the message.
    
    The hash method is detected automatically from the signature.
    
    :param message: the signed message. Can be an 8-bit string or a file-like
        object. If ``message`` has a ``read()`` method, it is assumed to be a
        file-like object.
    :param signature: the signature block, as created with :py:func:`rsa.sign`.
    :param pub_key: the :py:class:`rsa.PublicKey` of the person signing the message.
    :raise VerificationError: when the signature doesn't match the message.

    '''
    
    keylength = common.byte_size(pub_key.n)
    encrypted = transform.bytes2int(signature)
    decrypted = core.decrypt_int(encrypted, pub_key.e, pub_key.n)
    clearsig = transform.int2bytes(decrypted, keylength)
    
    # Get the hash method
    method_name = _find_method_hash(clearsig)
    message_hash = _hash(message, method_name)

    # Reconstruct the expected padded hash
    cleartext = HASH_ASN1[method_name] + message_hash
    expected = _pad_for_signing(cleartext, keylength)

    # Compare with the signed one
    if expected != clearsig:
        raise VerificationError('Verification failed')

    return True 
开发者ID:luci,项目名称:luci-py,代码行数:34,代码来源:pkcs1.py


注:本文中的rsa.transform.bytes2int方法示例由纯净天空整理自Github/MSDocs等开源代码及文档管理平台,相关代码片段筛选自各路编程大神贡献的开源项目,源码版权归原作者所有,传播和使用请参考对应项目的License;未经允许,请勿转载。