/usr/lib/python2.7/dist-packages/fko.py is in libfko-python 2.6.0-2.2.
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The fko module provides a class that implements the functions for
managing fwknop Single Packet Authorization (SPA) via the fwknop
library (libfko).
You can find more detailed information in the libfko documention
(try "info libfko" if you have the standard GNU texinfo tools).
Example simple minimal fknop client:
import socket
from fko import *
fko_port = 62201
fko_host = "192.168.7.67"
# Create the Fko object which will initialize the FKO
# context and populate some of its fields with default
# data.
#
f = Fko()
# Set the SPA message (access request)
#
f.spa_message('192.168.7.5,tcp/22')
# Alternate way to set SPA message using the FkoAccess class.
#
# ar = FkoAccess("192.168.7.5", "tcp", 22)
# f.spa_message(ar.str())
# Generate the final SPA data string.
#
f.spa_data_final('put_pw_here')
# Display the final SPA data string.
#
print "SPA Data:", f.spa_data()
# Send the SPA request.
#
s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
s.sendto(f.spa_data(), (fko_host, fko_port))
s.close()
"""
import _fko
from string import join
# FKO Constants definitions
"""Message type constants
"""
FKO_COMMAND_MSG = 0
FKO_ACCESS_MSG = 1
FKO_NAT_ACCESS_MSG = 2
FKO_CLIENT_TIMEOUT_ACCESS_MSG = 3
FKO_CLIENT_TIMEOUT_NAT_ACCESS_MSG = 4
FKO_LOCAL_NAT_ACCESS_MSG = 5
FKO_CLIENT_TIMEOUT_LOCAL_NAT_ACCESS_MSG = 6
"""Digest type constants
"""
FKO_DIGEST_INVALID_DATA = -1
FKO_DIGEST_UNKNOWN = 0
FKO_DIGEST_MD5 = 1
FKO_DIGEST_SHA1 = 2
FKO_DIGEST_SHA256 = 3
FKO_DIGEST_SHA384 = 4
FKO_DIGEST_SHA512 = 5
"""Hmac type constants
"""
FKO_HMAC_INVALID_DATA = -1
FKO_HMAC_UNKNOWN = 0
FKO_HMAC_MD5 = 1
FKO_HMAC_SHA1 = 2
FKO_HMAC_SHA256 = 3
FKO_HMAC_SHA384 = 4
FKO_HMAC_SHA512 = 5
"""Encryption type constants
"""
FKO_ENCRYPTION_INVALID_DATA = -1
FKO_ENCRYPTION_UNKNOWN = 0
FKO_ENCRYPTION_RIJNDAEL = 1
FKO_ENCRYPTION_GPG = 2
"""Symmetric encryption modes to correspond to rijndael.h
"""
FKO_ENC_MODE_UNKNOWN = 0
FKO_ENC_MODE_ECB = 1
FKO_ENC_MODE_CBC = 2
FKO_ENC_MODE_CFB = 3
FKO_ENC_MODE_PCBC = 4
FKO_ENC_MODE_OFB = 5
FKO_ENC_MODE_CTR = 6
FKO_ENC_MODE_ASYMMETRIC = 7
FKO_ENC_MODE_CBC_LEGACY_IV = 8
"""FKO error codes
"""
FKO_SUCCESS = 0
FKO_ERROR_CTX_NOT_INITIALIZED = 1
FKO_ERROR_MEMORY_ALLOCATION = 2
FKO_ERROR_FILESYSTEM_OPERATION = 3
FKO_ERROR_INVALID_DATA = 4
FKO_ERROR_INVALID_DATA_CLIENT_TIMEOUT_NEGATIVE = 5
FKO_ERROR_INVALID_DATA_DECODE_MSGLEN_VALIDFAIL = 6
FKO_ERROR_INVALID_DATA_DECODE_NON_ASCII = 7
FKO_ERROR_INVALID_DATA_DECODE_LT_MIN_FIELDS = 8
FKO_ERROR_INVALID_DATA_DECODE_ENC_MSG_LEN_MT_T_SIZE = 9
FKO_ERROR_INVALID_DATA_DECODE_RAND_MISSING = 10
FKO_ERROR_INVALID_DATA_DECODE_USERNAME_MISSING = 11
FKO_ERROR_INVALID_DATA_DECODE_USERNAME_TOOBIG = 12
FKO_ERROR_INVALID_DATA_DECODE_USERNAME_DECODEFAIL = 13
FKO_ERROR_INVALID_DATA_DECODE_USERNAME_VALIDFAIL = 14
FKO_ERROR_INVALID_DATA_DECODE_TIMESTAMP_MISSING = 15
FKO_ERROR_INVALID_DATA_DECODE_TIMESTAMP_TOOBIG = 16
FKO_ERROR_INVALID_DATA_DECODE_TIMESTAMP_DECODEFAIL = 17
FKO_ERROR_INVALID_DATA_DECODE_VERSION_MISSING = 18
FKO_ERROR_INVALID_DATA_DECODE_VERSION_TOOBIG = 19
FKO_ERROR_INVALID_DATA_DECODE_MSGTYPE_MISSING = 20
FKO_ERROR_INVALID_DATA_DECODE_MSGTYPE_TOOBIG = 21
FKO_ERROR_INVALID_DATA_DECODE_MSGTYPE_DECODEFAIL = 22
FKO_ERROR_INVALID_DATA_DECODE_MESSAGE_MISSING = 23
FKO_ERROR_INVALID_DATA_DECODE_MESSAGE_TOOBIG = 24
FKO_ERROR_INVALID_DATA_DECODE_MESSAGE_DECODEFAIL = 25
FKO_ERROR_INVALID_DATA_DECODE_MESSAGE_VALIDFAIL = 26
FKO_ERROR_INVALID_DATA_DECODE_ACCESS_VALIDFAIL = 27
FKO_ERROR_INVALID_DATA_DECODE_NATACCESS_MISSING = 28
FKO_ERROR_INVALID_DATA_DECODE_NATACCESS_TOOBIG = 29
FKO_ERROR_INVALID_DATA_DECODE_NATACCESS_DECODEFAIL = 30
FKO_ERROR_INVALID_DATA_DECODE_NATACCESS_VALIDFAIL = 31
FKO_ERROR_INVALID_DATA_DECODE_SRVAUTH_MISSING = 32
FKO_ERROR_INVALID_DATA_DECODE_SRVAUTH_DECODEFAIL = 33
FKO_ERROR_INVALID_DATA_DECODE_SPA_EXTRA_TOOBIG = 34
FKO_ERROR_INVALID_DATA_DECODE_EXTRA_TOOBIG = 35
FKO_ERROR_INVALID_DATA_DECODE_EXTRA_DECODEFAIL = 36
FKO_ERROR_INVALID_DATA_DECODE_TIMEOUT_MISSING = 37
FKO_ERROR_INVALID_DATA_DECODE_TIMEOUT_TOOBIG = 38
FKO_ERROR_INVALID_DATA_DECODE_TIMEOUT_VALIDFAIL = 39
FKO_ERROR_INVALID_DATA_DECODE_TIMEOUT_DECODEFAIL = 40
FKO_ERROR_INVALID_DATA_ENCODE_MESSAGE_TOOBIG = 41
FKO_ERROR_INVALID_DATA_ENCODE_MSGLEN_VALIDFAIL = 42
FKO_ERROR_INVALID_DATA_ENCODE_DIGEST_VALIDFAIL = 43
FKO_ERROR_INVALID_DATA_ENCODE_DIGEST_TOOBIG = 44
FKO_ERROR_INVALID_DATA_ENCODE_NOTBASE64 = 45
FKO_ERROR_INVALID_DATA_ENCRYPT_MSGLEN_VALIDFAIL = 46
FKO_ERROR_INVALID_DATA_ENCRYPT_DIGESTLEN_VALIDFAIL = 47
FKO_ERROR_INVALID_DATA_ENCRYPT_PTLEN_VALIDFAIL = 48
FKO_ERROR_INVALID_DATA_ENCRYPT_RESULT_MSGLEN_VALIDFAIL = 49
FKO_ERROR_INVALID_DATA_ENCRYPT_CIPHERLEN_DECODEFAIL = 50
FKO_ERROR_INVALID_DATA_ENCRYPT_CIPHERLEN_VALIDFAIL = 51
FKO_ERROR_INVALID_DATA_ENCRYPT_DECRYPTED_MESSAGE_MISSING = 52
FKO_ERROR_INVALID_DATA_ENCRYPT_DECRYPTED_MSGLEN_VALIDFAIL = 53
FKO_ERROR_INVALID_DATA_ENCRYPT_GPG_MESSAGE_VALIDFAIL = 54
FKO_ERROR_INVALID_DATA_ENCRYPT_GPG_DIGEST_VALIDFAIL = 55
FKO_ERROR_INVALID_DATA_ENCRYPT_GPG_MSGLEN_VALIDFAIL = 56
FKO_ERROR_INVALID_DATA_ENCRYPT_GPG_RESULT_MSGLEN_VALIDFAIL = 57
FKO_ERROR_INVALID_DATA_ENCRYPT_GPG_CIPHER_DECODEFAIL = 58
FKO_ERROR_INVALID_DATA_ENCRYPT_GPG_ENCODEDMSG_NULL = 59
FKO_ERROR_INVALID_DATA_ENCRYPT_GPG_ENCODEDMSGLEN_VALIDFAIL = 60
FKO_ERROR_INVALID_DATA_ENCRYPT_TYPE_VALIDFAIL = 61
FKO_ERROR_INVALID_DATA_ENCRYPT_MODE_VALIDFAIL = 62
FKO_ERROR_INVALID_DATA_ENCRYPT_TYPE_UNKNOWN = 63
FKO_ERROR_INVALID_DATA_FUNCS_NEW_ENCMSG_MISSING = 64
FKO_ERROR_INVALID_DATA_FUNCS_NEW_MSGLEN_VALIDFAIL = 65
FKO_ERROR_INVALID_DATA_FUNCS_GEN_KEYLEN_VALIDFAIL = 66
FKO_ERROR_INVALID_DATA_FUNCS_GEN_HMACLEN_VALIDFAIL = 67
FKO_ERROR_INVALID_DATA_FUNCS_GEN_KEY_ENCODEFAIL = 68
FKO_ERROR_INVALID_DATA_FUNCS_GEN_HMAC_ENCODEFAIL = 69
FKO_ERROR_INVALID_DATA_FUNCS_SET_MSGLEN_VALIDFAIL = 70
FKO_ERROR_INVALID_DATA_HMAC_MSGLEN_VALIDFAIL = 71
FKO_ERROR_INVALID_DATA_HMAC_ENCMSGLEN_VALIDFAIL = 72
FKO_ERROR_INVALID_DATA_HMAC_COMPAREFAIL = 73
FKO_ERROR_INVALID_DATA_HMAC_TYPE_VALIDFAIL = 74
FKO_ERROR_INVALID_DATA_HMAC_LEN_VALIDFAIL = 75
FKO_ERROR_INVALID_DATA_MESSAGE_PORT_MISSING = 76
FKO_ERROR_INVALID_DATA_MESSAGE_TYPE_VALIDFAIL = 77
FKO_ERROR_INVALID_DATA_MESSAGE_EMPTY = 78
FKO_ERROR_INVALID_DATA_MESSAGE_CMD_MISSING = 79
FKO_ERROR_INVALID_DATA_MESSAGE_ACCESS_MISSING = 80
FKO_ERROR_INVALID_DATA_MESSAGE_NAT_MISSING = 81
FKO_ERROR_INVALID_DATA_MESSAGE_PORTPROTO_MISSING = 82
FKO_ERROR_INVALID_DATA_NAT_EMPTY = 83
FKO_ERROR_INVALID_DATA_RAND_LEN_VALIDFAIL = 84
FKO_ERROR_INVALID_DATA_SRVAUTH_MISSING = 85
FKO_ERROR_INVALID_DATA_TIMESTAMP_VALIDFAIL = 86
FKO_ERROR_INVALID_DATA_USER_MISSING = 87
FKO_ERROR_INVALID_DATA_USER_FIRSTCHAR_VALIDFAIL = 88
FKO_ERROR_INVALID_DATA_USER_REMCHAR_VALIDFAIL = 89
FKO_ERROR_INVALID_DATA_UTIL_STRTOL_LT_MIN = 90
FKO_ERROR_INVALID_DATA_UTIL_STROL_GT_MAX = 91
FKO_ERROR_DATA_TOO_LARGE = 92
FKO_ERROR_INVALID_KEY_LEN = 93
FKO_ERROR_USERNAME_UNKNOWN = 94
FKO_ERROR_INCOMPLETE_SPA_DATA = 95
FKO_ERROR_MISSING_ENCODED_DATA = 96
FKO_ERROR_INVALID_DIGEST_TYPE = 97
FKO_ERROR_INVALID_ALLOW_IP = 98
FKO_ERROR_INVALID_SPA_COMMAND_MSG = 99
FKO_ERROR_INVALID_SPA_ACCESS_MSG = 100
FKO_ERROR_INVALID_SPA_NAT_ACCESS_MSG = 101
FKO_ERROR_INVALID_ENCRYPTION_TYPE = 102
FKO_ERROR_WRONG_ENCRYPTION_TYPE = 103
FKO_ERROR_DECRYPTION_SIZE = 104
FKO_ERROR_DECRYPTION_FAILURE = 105
FKO_ERROR_DIGEST_VERIFICATION_FAILED = 106
FKO_ERROR_INVALID_HMAC_KEY_LEN = 107
FKO_ERROR_UNSUPPORTED_HMAC_MODE = 108
FKO_ERROR_UNSUPPORTED_FEATURE = 109
FKO_ERROR_ZERO_OUT_DATA = 110
FKO_ERROR_UNKNOWN = 111
# Start GPGME-related errors
GPGME_ERR_START = 112
FKO_ERROR_MISSING_GPG_KEY_DATA = 113
FKO_ERROR_GPGME_NO_OPENPGP = 114
FKO_ERROR_GPGME_CONTEXT = 115
FKO_ERROR_GPGME_PLAINTEXT_DATA_OBJ = 116
FKO_ERROR_GPGME_SET_PROTOCOL = 117
FKO_ERROR_GPGME_CIPHER_DATA_OBJ = 118
FKO_ERROR_GPGME_BAD_PASSPHRASE = 119
FKO_ERROR_GPGME_ENCRYPT_SIGN = 120
FKO_ERROR_GPGME_CONTEXT_SIGNER_KEY = 121
FKO_ERROR_GPGME_SIGNER_KEYLIST_START = 122
FKO_ERROR_GPGME_SIGNER_KEY_NOT_FOUND = 123
FKO_ERROR_GPGME_SIGNER_KEY_AMBIGUOUS = 124
FKO_ERROR_GPGME_ADD_SIGNER = 125
FKO_ERROR_GPGME_CONTEXT_RECIPIENT_KEY = 126
FKO_ERROR_GPGME_RECIPIENT_KEYLIST_START = 127
FKO_ERROR_GPGME_RECIPIENT_KEY_NOT_FOUND = 128
FKO_ERROR_GPGME_RECIPIENT_KEY_AMBIGUOUS = 129
FKO_ERROR_GPGME_DECRYPT_FAILED = 130
FKO_ERROR_GPGME_DECRYPT_UNSUPPORTED_ALGORITHM = 131
FKO_ERROR_GPGME_BAD_GPG_EXE = 132
FKO_ERROR_GPGME_BAD_HOME_DIR = 133
FKO_ERROR_GPGME_SET_HOME_DIR = 134
FKO_ERROR_GPGME_NO_SIGNATURE = 135
FKO_ERROR_GPGME_BAD_SIGNATURE = 136
FKO_ERROR_GPGME_SIGNATURE_VERIFY_DISABLED = 137
### End FKO Constants ###
class FkoException(Exception):
"""General exception class for fko.
"""
pass
class Fko:
"""This class wraps the Firewall KNock OPerator (fwknop) library, libfko.
It provides the functionality to manage and process
Single Packet Authorization (SPA) data.
"""
def __init__(self, spa_data=None, key=None):
"""Constructor for the Fko class.
Creates and intitializes the fko context.
If no arguments are given, and empty context is create with
some default values. See the libfko documentation for details
on these defaults.
If spa_data and key is supplied, the context is created, then
the SPA data is decrypted using the key. If successful, the SPA
data is parsed into the context's data structure.
If spa_data is supplied without the key, then the encrypted data
is stored in the context and can be decoded later (see libfko docs).
"""
# If there is SPA data, attempt to process it. Otherwise, create
# an empty context.
#
if spa_data != None:
self.ctx = _fko.init_ctx_with_data(spa_data, key)
else:
self.ctx = _fko.init_ctx()
def __del__(self):
"""Destructor for Fko.
Destroys the FKO context to clear the (possible sensitive) data
and releases the resource allocated to the context.
"""
_fko.destroy_ctx(self.ctx)
### FKO data functions and operations. ###
def version(self):
"""Returns the fwknop version string.
This version represents the supported fwknop SPA message format and
features. This has nothing to do with the version of this module.
"""
return _fko.get_version(self.ctx)
def rand_value(self, val=None):
"""Get or set the random value string of the SPA data.
If setting the random value string, you must pass either a
16-character decimal number (to set it to the given string), or
an empty string ("")to have a new random value string generated
by libfko.
If a provided value is not a valid 16-character decimal string, the
function will throw an fko.error exception.
"""
if val != None:
_fko.set_rand_value(self.ctx, val)
else:
return _fko.get_rand_value(self.ctx)
def username(self, val=None):
"""Set or get the username field of the SPA data.
If no argument is given, given, this function will return the
current value. Otherwise, the username value will be set to the
name provided.
If an empty string is given, libfko will attempt to determine and
set the username by first looking for the environment variable
"SPOOF_USER" and use its value if found. Otherwise, it will try to
determine the username itself using various system methods, then
fallback to the environment variables "LOGNAME" or "USER". If none
of those work, the function will throw an fko.error exception.
Upon creation of a new Fko object, this value is automatically
generated based on the libfko method described above.
"""
if val != None:
_fko.set_username(self.ctx, val)
else:
return _fko.get_username(self.ctx)
def timestamp(self, val=None):
"""Gets or sets the timestamp value of the SPA data.
If no argument is given, the current value is returned.
If an argument is provided, it will represent an offset to be
applied to the current timestamp value at the time this function
was called.
Upon creation of a new FKO object, this value is automatically
generated based on the time of object creation.
"""
if val != None:
_fko.set_timestamp(self.ctx, val)
else:
return _fko.get_timestamp(self.ctx)
def digest_type(self, val=None):
"""Gets or sets the digest type.
If no argument is given, the current value is returned. Otherwise,
digest type will be set to the given value.
The digest type parameter is an integer value. Constants have been
defined to represent these values. Currently, the supported digest
types are:
FKO_DIGEST_MD5 - The MD5 message digest.
FKO_DIGEST_SHA1 - The SHA1 message digest.
FKO_DIGEST_SHA256 - The SHA256 message digest (default).
FKO_DIGEST_SHA384 - The SHA384 message digest.
FKO_DIGEST_SHA512 - The SHA512 message digest.
"""
if val != None:
_fko.set_spa_digest_type(self.ctx, val)
else:
return _fko.get_spa_digest_type(self.ctx)
def encryption_type(self, val=None):
"""Get or set the encryption type.
If no argument is given, the current value is returned. Otherwise,
encryption type will be set to the given value.
The encryption type parameter is an integer value. Constants have
been defined to represent these values. Currently, the only
supported encryption types are:
FKO_ENCRYPTION_RIJNDAEL
AES - the default libfko encryption algorithm.
FKO_ENCRYPTION_GPG
GnuPG encryption (if supported by the underlying libfko
implementation).
"""
if val != None:
_fko.set_spa_encryption_type(self.ctx, val)
else:
return _fko.get_spa_encryption_type(self.ctx)
def message_type(self, val=None):
"""Get or set the SPA message type.
If no argument is given, the current value is returned. Otherwise,
message type will be set to the given value.
The message type parameter is an integer value. Constants have
been defined to represent this values. Currently, the supported
digest types are:
FKO_COMMAND_MSG
A request to have the fwknop server execute the given command.
The format for this type is: "<ip of requestor>:<command text>"
For example: "192.168.1.2:uname -a"
FKO_ACCESS_MSG
A basic access request. This is the most common type in use.
The format for this type is: "<ip of
requestor>:<protocol>/<port>".
For example: "192.168.1.2:tcp/22"
FKO_NAT_ACCESS_MSG
An access request that also provide information for the fwknop
server to create a Network Address Translation (NAT to an
internal address. The format for this string is: "<internal
ip>,<ext nat port>".
For example: "10.10.1.2,9922"
FKO_CLIENT_TIMEOUT_ACCESS_MSG
This is an "FKO_ACCESS_REQUEST" with a timeout parameter for
the fwknop server. The timeout value is provided via the
"client_timeout" data field.
FKO_CLIENT_TIMEOUT_NAT_ACCESS_MSG
This is an "FKO_NAT_ACCESS_REQUEST" with a timeout parameter
for the fwknop server. The timeout value is provided via the
"client_timeout" data field.
FKO_LOCAL_NAT_ACCESS_MSG
This is similar to the "FKO_NAT_ACCESS" request exept the NAT
is to the local to the server (i.e. a service listening on
127.0.0.1).
FKO_CLIENT_TIMEOUT_LOCAL_NAT_ACCES_MSG
This is an "FKO_LOCAL_NAT_ACCESS_REQUEST" with a timeout
parameter for the fwknop server. The timeout value is provided
via the "client_timeout" data field.
"""
if val != None:
_fko.set_spa_message_type(self.ctx, val)
else:
return _fko.get_spa_message_type(self.ctx)
def spa_message(self, val=None):
"""Get or set the SPA message string.
If no argument is given, the current value is returned. Otherwise,
SPA message string will be set to the given value.
This is the string that represents the data for the message type
as described in the spa_message_type section above.
"""
if val != None:
_fko.set_spa_message(self.ctx, val)
else:
return _fko.get_spa_message(self.ctx)
def spa_nat_access(self, val=None):
"""Get or set the SPA nat access string.
If no argument is given, the current value is returned. Otherwise,
SPA nat access string will be set to the given value.
"""
if val != None:
_fko.set_spa_nat_access(self.ctx, val)
else:
return _fko.get_spa_nat_access(self.ctx)
def spa_server_auth(self, val=None):
"""Get or set the SPA server auth string.
If no argument is given, the current value is returned. Otherwise,
the SPA server auth string will be set to the given value.
"""
if val != None:
_fko.set_spa_server_auth(self.ctx, val)
else:
return _fko.get_spa_server_auth(self.ctx)
def spa_client_timeout(self, val=None):
"""Get or set the SPA message client timeout value.
This is an integer value. If no argument is given, the current value
is returned. Otherwise, the SPA message client timeout value will
be set to the given value.
"""
if val != None:
_fko.set_spa_client_timeout(self.ctx, val)
else:
return _fko.get_spa_client_timeout(self.ctx)
def spa_digest(self):
"""Returns the digest associated with the current data (if available
and set). This function is normally not called directly as it is
called by other libfko functions during normal processing.
"""
return _fko.get_spa_digest(self.ctx)
def gen_spa_digest(self):
"""Recalculate the SPA data digest based on the current context's
data. This function is normally not called directly as it is called
by other libfko functions during normal processing.
"""
_fko.set_spa_digest(self.ctx)
def spa_data(self, val=None):
"""Get or set the SPA data string.
If no argument is given, the current value is returned. This would
be the final encrypted and encoded string of data that is suitable
for sending to an fwkno server.
If an argument is given, it is expected to be an existing encrypted
and encoded SPA data string (perhaps data received by an fwknop
server). The provided data is stored in the object (the current
context).
Note: When data is provided via this function, it is not
automatically decoded. You would need to call the
"decrypt_spa_data(key)" method to complete the
decryption, decoding, and parsing process.
"""
if val != None:
_fko.set_spa_data(self.ctx, val)
else:
return _fko.get_spa_data(self.ctx)
def encoded_data(self):
"""Returns the encoded SPA data as it would be just before the
encryption step. This is not generally useful unless you are
debugging a data issue.
"""
return _fko.get_encoded_data(self.ctx)
def raw_spa_digest_type(self, val=None):
"""Get or set the raw spa_digest_type
This is an integer value. If no argument is given, the current value
is returned. Otherwise, the SPA message client timeout value will
be set to the given value.
"""
if val != None:
_fko.set_raw_spa_digest_type(self.ctx, val)
else:
return _fko.get_raw_spa_digest_type(self.ctx)
def raw_spa_digest(self, val=None):
"""Get or set the raw spa_digest_type
"""
if val != None:
_fko.set_raw_spa_digest(self.ctx, val)
else:
return _fko.get_raw_spa_digest(self.ctx)
def spa_encryption_mode(self, val=None):
"""Get or set the spa_encryption mode
This is an integer value. If no argument is given, the current value
is returned. Otherwise, the SPA message client timeout value will
be set to the given value.
"""
if val != None:
_fko.set_spa_encryption_mode(self.ctx, val)
else:
return _fko.get_spa_encryption_mode(self.ctx)
def hmac_type(self, val=None):
"""Get or set the spa_hmac_type
This is an integer value. If no argument is given, the current value
is returned. Otherwise, the SPA message client timeout value will
be set to the given value.
"""
if val != None:
_fko.set_spa_hmac_type(self.ctx, val)
else:
return _fko.get_spa_hmac_type(self.ctx)
def spa_data_final(self, key, hmac_key):
"""Perform final processing and generation of the SPA message data.
This function is the final step in creating a complete encrypted
SPA data string suitable for transmission to an fwknop server. It
does require all of the requisite SPA data fields be set. Otherwise,
it will fail and throw an fko.error exception.
"""
_fko.spa_data_final(self.ctx, key, hmac_key)
def gen_spa_data(self, key):
"""Alias for "spa_data_final()".
"""
_fko.spa_data_final(self.ctx, key)
def encode_spa_data(self):
"""Encode the raw SPA data.
Instructs libfko to perform the base64 encoding of those SPA data
fields that need to be encoded, perform some data validation,
compute and store the message digest hash for the SPA data.
This function is normally not called directly as it is called by
other libfko functions during normal processing (i.e during encypt
and/or final functions.
"""
_fko.encode_spa_data(self.ctx)
def decode_spa_data(self):
"""Decode decrypted SPA data.
This method hands of the data to the libfko decoding routines
which performs the decoding, parsing, and validation of the SPA data
that was just decrypted.
This function is normally not called directly as it is called by
other libfko functions during normal processing.
"""
_fko.decode_spa_data(self.ctx)
def encrypt_spa_data(self, key):
"""Encrypts the intermediate encoded SPA data stored in the context.
The internal libfko encryption function will call the internal
"encode_spa_data" if necessary.
This function is normally not called directly as it is
automatically called from the internal "fko_spa_data_final"
function (which is wrapped by this module's "spa_data_final"
function).
"""
_fko.encrypt_spa_data(self.ctx, key)
def decrypt_spa_data(self, key):
"""Decrypt, decode, and parse SPA message data.
When given the correct key (passsword), this methoe decrypts,
decodes, and parses the encrypted SPA data contained in the current
context. Once the data is decrypted, the libfko internal function
will also call the libfko decode function to decode, parse,
validate, and store the data fields in the context for later
retrieval.
Note: This function does not need to be called directly if
encrypted SPA data and the key was passed to this module's
constructor when the object was created, the constructor will
decrypt and decode the data at that time.
"""
_fko.decrypt_spa_data(self.ctx, key)
# --DSS
def encryption_type(self, enc_data):
"""Return the assumed encryption type based on the encryptped data
"""
_fko.encryption_type(enc_data)
def key_gen(self, keyb64, hmac_keyb64):
"""Generate Rijndael and HMAC keys and base64 encode them
"""
_fko.key_gen(keyb64, hmac_keyb64)
def base64_encode(self, indata):
"""Base64 encode function
"""
_fko.base64_encode(indata)
def base64_decode(self, indata):
"""Base64 decode function
"""
_fko.base64_decode(indata)
def verify_hmac(self, hmac_key):
"""Generate HMAC for the data and verify it against the HMAC included with the data
"""
_fko.verify_hmac(self.ctx, hmac_key)
def set_spa_hmac(self, hmac_key):
"""Calculate the HMAC for the given data
"""
_fko.set_spa_hmac(self.ctx, hmac_key)
def get_spa_hmac(self):
"""Return the HMAC for the data in the current context
"""
_fko.get_spa_hmac(self.ctx)
# GPG-related functions.
def gpg_recipient(self, val=None):
"""Get or set the gpg_recipient.
This is the ID or email of the public GPG key of the intended
recipient. In order for this function to work, the following
conditions must be met:
- The underlying libfko implementation must have GPG support.
- The encryption_type must be set to "FKO_ENCRYPTION_GPG".
- The specified GPG key must exist and be valid.
If no argument is given, the current value is returned. Otherwise,
gpg_recipient will be set to the given value.
"""
if val != None:
_fko.set_gpg_recipient(self.ctx, val)
else:
return _fko.get_gpg_recipient(self.ctx)
def gpg_signer(self, val=None):
"""Get or set the gpg_signer.
This is the ID or email for the secret GPG key to be used to
sign the encryped data. In order for this function to work, the
following conditions must be met:
- The underlying libfko implementation must have GPG support.
- The encryption_type must be set to "FKO_ENCRYPTION_GPG".
- The specified GPG key must exist and be valid.
If no argument is given, the current value is returned. Otherwise,
gpg_signer will be set to the given value.
"""
if val != None:
_fko.set_gpg_signer(self.ctx, val)
else:
return _fko.get_gpg_signer(self.ctx)
def gpg_home_dir(self, val=None):
"""Get or set the GPG home directory.
This is the directory that holds the GPG keyrings, etc. In order
for this function to work, the following conditions must be met:
- The underlying libfko implementation must have GPG support.
- The encryption_type must be set to "FKO_ENCRYPTION_GPG".
- The specified GPG home directory must exist.
If no argument is given, the current value is returned. Otherwise,
gpg_home_dir will be set to the given value.
"""
if val != None:
_fko.set_gpg_home_dir(self.ctx, val)
else:
return _fko.get_gpg_home_dir(self.ctx)
def gpg_signature_verify(self, val=None):
"""Get or set the GPG signature verification flag.
If true (1), then GPG signatures are processed by libfko. This is
the default behavior. If set to false (0), then libfko will not
even look for or at any GPG signatures and will proceed with a
decoding the SPA data.
If no argument is given, the current value is returned. Otherwise,
the gpg_signature_verify flag will be set to the given value.
"""
if val != None:
_fko.set_gpg_signature_verify(self.ctx, val)
else:
return _fko.get_gpg_signature_verify(self.ctx)
def gpg_ignore_verify_error(self, val=None):
"""Get or set the GPG signature ignore verification error flag.
If true (1), then GPG signatures are processed and retained by
libfko, but a bad signature will not prevent the decoding phase.
The default is to not ignore errors.
If no argument is given, the current value is returned. Otherwise,
the gpg_ignore_verify_error flag will be set to the given value.
"""
if val != None:
_fko.set_gpg_ignore_verify_error(self.ctx, val)
else:
return _fko.get_gpg_ignore_verify_error(self.ctx)
def gpg_exe(self, val=None):
"""Get or set the path the the GPG executable libfko should use.
If no argument is given, the current value is returned. Otherwise,
gpg_exe will be set to the given value.
"""
if val != None:
_fko.set_gpg_exe(self.ctx, val)
else:
return _fko.get_gpg_exe(self.ctx)
def gpg_signature_id(self):
"""Get ID of the GPG signature from the last decryption operation.
"""
return _fko.get_gpg_signature_id(self.ctx)
def gpg_signature_fpr(self):
"""Get Fingerprint of the GPG signature from the last decryption
operation.
"""
return _fko.get_gpg_signature_fpr(self.ctx)
def gpg_signature_summary(self):
"""Get GPGME signature summary value of the GPG signature from the
last decryption operation. This value is a bitmask that hold
additional information on the signature (see GPGME docs for more
information).
"""
return _fko.get_gpg_signature_summary(self.ctx)
def gpg_signature_status(self):
"""Get error status of the GPG signature from the last decryption
operation. This value is a GPGME error code (see GPGME docs for
more information).
"""
return _fko.get_gpg_signature_status(self.ctx)
def gpg_signature_id_match(self, val):
"""Compare the given ID with the id of the GPG signature of the
last decryption operation. If the ID's match, then a true value
is returned. Otherwise false is returned.
"""
if _fko.gpg_signature_id_match(self.ctx) > 0:
return True
return False
def gpg_signature_fpr_match(self, val):
"""Compare the given fingerprint value with the fingerprint of the
GPG signature of the last decryption operation. If the ID's match,
then a true value is returned. Otherwise false is returned.
"""
if _fko.gpg_signature_fpr_match(self.ctx) > 0:
return True
return False
def gpg_errstr(self):
"""Return the last GPG-related error on the current context
"""
_fko.fko_gpg_errstr(self.ctx)
# Error message string function.
def errstr(self, val):
"""Returns the descriptive error message string for the
given error code value.
"""
return _fko.errstr(code)
# FKO type lookup functions.
def message_type_str(self, val=None):
"""Returns the message type string for the given value.
"""
if val == None:
val = _fko.get_spa_message_type(self.ctx)
if val == FKO_COMMAND_MSG:
mts = "Command Message"
elif val == FKO_ACCESS_MSG:
mts = "Access Message"
elif val == FKO_NAT_ACCESS_MSG:
mts = "NAT Access Message"
elif val == FKO_CLIENT_TIMEOUT_ACCESS_MSG:
mts = "Access Message with timeout"
elif val == FKO_CLIENT_TIMEOUT_NAT_ACCESS_MSG:
mts = "NAT access Message with timeout"
elif val == FKO_LOCAL_NAT_ACCESS_MSG:
mts = "Local NAT Access Message"
elif val == FKO_CLIENT_TIMEOUT_LOCAL_NAT_ACCESS_MSG:
mts = "Local NAT Access Message with timeout"
else:
mts = "Unknown SPA message type"
return mts
def digest_type_str(self, val=None):
"""Returns the digest type string for the given value.
If no value is given, the digest type for the current context
is returned.
"""
if val == None:
val = _fko.get_spa_digest_type(self.ctx)
if val == FKO_DIGEST_INVALID_DATA:
dts = "invalid_data"
elif val == FKO_DIGEST_UNKNOWN:
dts = "unknown"
elif val == FKO_DIGEST_MD5:
dts = "MD5"
elif val == FKO_DIGEST_SHA1:
dts = "SHA1"
elif val == FKO_DIGEST_SHA256:
dts = "SHA256"
elif val == FKO_DIGEST_SHA384:
dts = "SHA384"
elif val == FKO_DIGEST_SHA512:
dts = "SHA512"
else:
dts = "Invalid digest type value"
return dts
def hmac_type_str(self, val=None):
"""Returns the HMAC type string for the given value.
If no value is given, the HMAC type for the current context
is returned.
"""
if val == None:
val = _fko.get_spa_hmac_type(self.ctx)
if val == FKO_HMAC_INVALID_DATA:
ht = "invalid_data"
elif val == FKO_HMAC_UNKNOWN:
ht = "unknown"
elif val == FKO_HMAC_MD5:
ht = "MD5"
elif val == FKO_HMAC_SHA1:
ht = "SHA1"
elif val == FKO_HMAC_SHA256:
ht = "SHA256"
elif val == FKO_HMAC_SHA384:
ht = "SHA384"
elif val == FKO_HMAC_SHA512:
ht = "SHA512"
else:
ht = "Invalid HMAC digest type value"
return ht
def encryption_type_str(self, val=None):
"""Returns the encryption type string for the given value.
If no value is given, the encryption type for the current context
is returned.
"""
if val == None:
val = _fko.get_spa_encryption_type(self.ctx)
if val == FKO_ENCRYPTION_INVALID_DATA:
ets = "invalid_data"
elif val == FKO_ENCRYPTION_UNKNOWN:
ets = "unknown"
elif val == FKO_ENCRYPTION_RIJNDAEL:
ets = "Rijndael (AES)"
elif val == FKO_ENCRYPTION_GPG:
ets = "GPG"
else:
ets = "Unknown encryption type"
return ets
def encryption_mode_str(self, val=None):
"""Returns the encryption mode string for the given value.
If no value is given, the encryption mode for the current context
is returned.
"""
if val == None:
val = _fko.get_spa_encryption_mode(self.ctx)
if val == FKO_ENC_MODE_UNKNOWN:
dts = "unknown"
elif val == FKO_ENC_MODE_ECB:
dts = "ECB"
elif val == FKO_ENC_MODE_CBC:
dts = "CBC"
elif val == FKO_ENC_MODE_CBF:
dts = "CBF"
elif val == FKO_ENC_MODE_PCBC:
dts = "PCBC"
elif val == FKO_ENC_MODE_OFB:
dts = "OFB"
elif val == FKO_ENC_MODE_CTR:
dts = "CTR"
elif val == FKO_ENC_MODE_ASYMMETRIC:
dts = "ASYMMETRIC"
elif val == FKO_ENC_MODE_CBC_LEGACY_IV:
dts = "CBC_LEGACY_IV"
else:
dts = "Invalid encryption mode value"
return dts
def __call__(self):
"""Calls the spa_data() method.
If an Fko object is called directly, then it will return
the SPA data string for that object.
"""
try:
return self.spa_data()
except:
return None
class FkoAccess():
"""Class for creating SPA Access Request message strings.
"""
def _check_port(self, port):
"""Internal function that validates a port or list of ports.
"""
plist = []
if type(port) is int:
plist.append(port)
elif type(port) is list:
plist += port
else:
raise FkoException("Invalid type: not an integer or a list")
for p in plist:
if type(p) is not int:
raise FkoException("Port value not an integer")
if p < 1 or p > 65535:
raise FkoException("Port value out of range: 1-65535")
return plist
def __init__(self, host="0.0.0.0", proto="tcp", port=None):
"""Constructor for the FkoAccess class.
The three optional arguments are:
- host - hostname or IP address (default is 0.0.0.0).
- proto - protocol, which can be "tcp" (default) or "udp".
- port - integer or list of integers representing the
port(s) access beinbg requested.
"""
self.host = host
self.proto = proto
if port is None:
self.port = []
else:
self.port = self._check_port(port)
def setport(self, port):
"""Set the port(s) for the Access Request.
Takes either an integer or a list of integers and replaces the
FkoAccess object's requested ports.
"""
self.port = self._check_port(port)
def addport(self, port):
"""Add the port(s) to the Access Request.
Takes either an integer or a list of integers and adds them to
the the existing FkoAccess object's requested ports.
"""
self.port += self._check_port(port)
def delport(self, port):
"""Remove the port(s) from the Access Request.
Takes either an integer or a list of integers and removes any
matching ports from the FkoAccess object's requested ports list.
"""
plist = self._check_port(port)
try:
for p in plist:
if p in self.port:
self.port.remove(p)
except:
pass
def str(self):
"""Return the Access Request string.
Generates and returns the properly formatted Access Request
string based on the object's host, proto, and ports values.
"""
if len(self.port) < 1:
raise FkoException("No port value in FkoAccess")
return self.host+','+self.proto+'/'+join(map(str,self.port),",")
def __call__(self):
"""Calls the str() method.
If an FkoAccess object is called directly, then it will return
the Access Request string for that object.
"""
return self.str()
class FkoNatAccess():
"""Class for creating SPA NAT Access Request message strings.
"""
def __init__(self, ip, port):
"""Constructor for the FkoNatAccess class.
The two required arguments are:
- ip - IP address of the NAT destination.
- port - Port number of the NAT destination.
"""
if type(port) is not int:
raise FkoException("Port value not an integer")
if port < 1 and port > 65535:
raise FkoException("Port value out of range 1-65535")
self.ip = ip
self.port = port
def str(self):
"""Return the NAT Access Request string.
Generates and returns the properly formatted NAT Access Request
string based on the object's ip and port values.
"""
return join([self.ip, str(self.port)], ",")
def __call__(self):
"""Calls the str() method.
If an FkoNatAccess object is called directly, then it will return
the NAT Access Request string for that object.
"""
return self.str()
###EOF###
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