Parse ASN.1 schemas into Python code and encode/decode them using PER encoder
Project description
asn1PERser
This library can parse ASN.1 text schemas into Python code. ASN.1 PER (Aligned) decoder/encoder is included to use with parsed schemas.
Supported ASN.1 types and their constraints are:
ASN.1 Type | Single value | Value range | Value size | can be extended (...) | used Python contraint class |
---|---|---|---|---|---|
INTEGER | X | X | X | ValueRange | |
BOOLEAN | |||||
ENUMERATED | X | ExtensionMarker | |||
BIT STRING | X | X | X | ValueSize | |
OCTET STRING | X | X | X | ValueSize | |
CHOICE | X | ExtensionMarker | |||
SEQUENCE | X | ExtensionMarker | |||
SEQUENCE OF | X | X | X | SequenceOfValueSize |
Table of contents:
Examples
Following ASN.1 schema:
asn_schema = '''\
SimpleProtocol DEFINITIONS AUTOMATIC TAGS ::=
BEGIN
SimpleMessage ::= CHOICE {
start Start,
stop Stop,
alive Alive,
data Data,
...
}
Start ::= SEQUENCE {
sequenceNumber SequenceNumber,
timestamp UTC-Timestamp,
srcPort Port,
dstPort Port
}
Stop ::= SEQUENCE {
sequenceNumber SequenceNumber,
timestamp UTC-Timestamp,
srcPort Port,
dstPort Port
}
Alive ::= SEQUENCE {
timestamp UTC-Timestamp,
...
}
Data ::= SEQUENCE {
sequenceNumber SequenceNumber,
swRelease ENUMERATED {rel1, rel2, rel3, ...},
macroId BIT STRING (SIZE(20)) OPTIONAL,
payload Payload
}
Port ::= INTEGER (10000..65535)
SequenceNumber ::= INTEGER (0..65535)
UTC-Timestamp ::= SEQUENCE {
seconds INTEGER (0..4294967295),
useconds INTEGER (0..4294967295)
}
Payload ::= SEQUENCE (SIZE(1..5)) OF Message
Message ::= OCTET STRING (SIZE(1..4))
END
'''
can be parsed into Python code like this:
from asn1PERser import parse_asn1_schema
parse_asn1_schema(asn1_schema=asn_schema, output_folder=r'C:/my_code/')
Above code will create file 'SimpleProtocol.py' in folder (which must exist) 'C:/my_code/':
from pyasn1.type.namedtype import NamedType, NamedTypes, OptionalNamedType, DefaultedNamedType
from pyasn1.type.namedval import NamedValues
from asn1PERser.classes.data.builtin import *
from asn1PERser.classes.types.type import AdditiveNamedTypes
from asn1PERser.classes.types.constraint import MIN, MAX, NoConstraint, ExtensionMarker, SequenceOfValueSize, \
ValueRange, SingleValue, ValueSize, ConstraintOr, ConstraintAnd
class Port(IntegerType):
subtypeSpec = ValueRange(10000, 65535)
class SequenceNumber(IntegerType):
subtypeSpec = ValueRange(0, 65535)
class Message(OctetStringType):
subtypeSpec = ValueSize(1, 4)
class UTC_Timestamp(SequenceType):
class seconds(IntegerType):
subtypeSpec = ValueRange(0, 4294967295)
class useconds(IntegerType):
subtypeSpec = ValueRange(0, 4294967295)
rootComponent = AdditiveNamedTypes(
NamedType('seconds', seconds()),
NamedType('useconds', useconds()),
)
componentType = rootComponent
class Start(SequenceType):
rootComponent = AdditiveNamedTypes(
NamedType('sequenceNumber', SequenceNumber()),
NamedType('timestamp', UTC_Timestamp()),
NamedType('srcPort', Port()),
NamedType('dstPort', Port()),
)
componentType = rootComponent
class Stop(SequenceType):
rootComponent = AdditiveNamedTypes(
NamedType('sequenceNumber', SequenceNumber()),
NamedType('timestamp', UTC_Timestamp()),
NamedType('srcPort', Port()),
NamedType('dstPort', Port()),
)
componentType = rootComponent
class Alive(SequenceType):
subtypeSpec = ExtensionMarker(True)
rootComponent = AdditiveNamedTypes(
NamedType('timestamp', UTC_Timestamp()),
)
componentType = rootComponent
class Payload(SequenceOfType):
subtypeSpec = SequenceOfValueSize(1, 5)
componentType = Message()
class Data(SequenceType):
class swRelease(EnumeratedType):
subtypeSpec = ExtensionMarker(True)
enumerationRoot = NamedValues(
('rel1', 0),
('rel2', 1),
('rel3', 2),
)
namedValues = enumerationRoot
class macroId(BitStringType):
subtypeSpec = ValueSize(20, 20)
rootComponent = AdditiveNamedTypes(
NamedType('sequenceNumber', SequenceNumber()),
NamedType('swRelease', swRelease()),
OptionalNamedType('macroId', macroId()),
NamedType('payload', Payload()),
)
componentType = rootComponent
class SimpleMessage(ChoiceType):
subtypeSpec = ExtensionMarker(True)
rootComponent = AdditiveNamedTypes(
NamedType('start', Start()),
NamedType('stop', Stop()),
NamedType('alive', Alive()),
NamedType('data', Data()),
)
componentType = rootComponent
When schema is parsed it can be used - message can be created, encoded and decoded, using PER encoder/decoder, into bytes or Python structure:
from asn1PERser import encode, decode
from SimpleProtocol import *
'''
simple_message SimpleMessage ::= alive : {
timestamp {
seconds 1557528149,
useconds 12345
}
}
'''
utc_timestamp = UTC_Timestamp()
utc_timestamp['seconds'] = UTC_Timestamp.seconds(1557528149)
utc_timestamp['useconds'] = UTC_Timestamp.useconds(12345)
msg_alive = Alive()
msg_alive['timestamp'] = utc_timestamp
simple_message = SimpleMessage()
simple_message['alive'] = msg_alive
per_bytes = encode(asn1Spec=simple_message)
print('encoded alive bytes as hex string:')
print(per_bytes.hex()) # py2: print(binascii.hexlify(per_bytes))
print('\n')
decoded = decode(per_stream=per_bytes, asn1Spec=SimpleMessage())
print('decoded alive message structure as string...:')
print(decoded)
print('...can be accessed like dictionary:')
print(decoded['alive']['timestamp']['seconds'])
print('\n')
print('...can be transformed into dictionary:')
print(decoded.to_dict())
above will output:
encoded alive bytes as hex string:
4c5cd5fe55403039
decoded alive message structure as string...:
SimpleMessage:
alive=Alive:
timestamp=UTC_Timestamp:
seconds=1557528149
useconds=12345
...can be accessed like dictionary:
1557528149
...can be transformed into dictionary:
{'alive': OrderedDict([('timestamp', OrderedDict([('seconds', 1557528149), ('useconds', 12345)]))])}
Next message:
'''
simple_message SimpleMessage ::= start : {
sequenceNumber 10,
timestamp {
seconds 1557528149,
useconds 12345
},
srcPort 65533,
dstPort 10000
}
'''
utc_timestamp = UTC_Timestamp()
utc_timestamp['seconds'] = UTC_Timestamp.seconds(1557528149)
utc_timestamp['useconds'] = UTC_Timestamp.useconds(12345)
msg_start = Start()
msg_start['sequenceNumber'] = SequenceNumber(10)
msg_start['timestamp'] = utc_timestamp
msg_start['srcPort'] = Port(65533)
msg_start['dstPort'] = Port(10000)
simple_message = SimpleMessage()
simple_message['start'] = msg_start
per_bytes = encode(asn1Spec=simple_message)
print('encoded start bytes as hex string:')
print(per_bytes.hex()) # py2: print(binascii.hexlify(per_bytes))
print('\n')
decoded = decode(per_stream=per_bytes, asn1Spec=SimpleMessage())
print('start message structure as string...:')
print(decoded)
print('...can be accessed like dictionary:')
print(decoded['start']['srcPort'])
print('\n')
print('...can be transformed into dictionary:')
print(decoded.to_dict())
above will output:
encoded start bytes as hex string:
00000ac05cd5fe55403039d8ed0000
start message structure as string...:
SimpleMessage:
start=Start:
sequenceNumber=10
timestamp=UTC_Timestamp:
seconds=1557528149
useconds=12345
srcPort=65533
dstPort=10000
...can be accessed like dictionary:
65533
...can be transformed into dictionary:
{'start': OrderedDict([('sequenceNumber', 10), ('timestamp', OrderedDict([('seconds', 1557528149), ('useconds', 12345)])), ('srcPort', 65533), ('dstPort', 10000)])}
Next message:
'''
simple_message SimpleMessage ::= data : {
sequenceNumber 55555,
swRelease rel2,
macroId '11110000111100001111'B,
payload {
'DEAD'H,
'BEEF'H,
'FEED'H,
'AA'H,
'BBBBBBBB'H
}
}
'''
data_payload = Payload()
data_payload.extend([Message(hexValue='DEAD')])
data_payload.extend([Message(hexValue='BEEF')])
data_payload.extend([Message(hexValue='FEED')])
data_payload.extend([Message(hexValue='AA')])
data_payload.extend([Message(hexValue='BBBBBBBB')])
msg_data = Data()
msg_data['sequenceNumber'] = SequenceNumber(55555)
msg_data['swRelease'] = Data.swRelease('rel2')
msg_data['macroId'] = Data.macroId(binValue='11110000111100001111')
msg_data['payload'] = data_payload
simple_message = SimpleMessage()
simple_message['data'] = msg_data
per_bytes = encode(asn1Spec=simple_message)
print('encoded data bytes as hex string:')
print(per_bytes.hex()) # py2: print(binascii.hexlify(per_bytes))
print('\n')
decoded = decode(per_stream=per_bytes, asn1Spec=SimpleMessage())
print('data message structure as string...:')
print(decoded)
print('...can be accessed like dictionary:')
print(bytes(decoded['data']['payload'][0]).hex())
print('\n')
print('...can be transformed into dictionary:')
print(decoded.to_dict())
above will output:
encoded data bytes as hex string:
70d90320f0f0f880dead40beef40feed00aac0bbbbbbbb
data message structure as string...:
SimpleMessage:
data=Data:
sequenceNumber=55555
swRelease=rel2
macroId=986895
payload=Payload:
0xdead 0xbeef 0xfeed 0xaa 0xbbbbbbbb
...can be accessed like dictionary:
dead
...can be transformed into dictionary:
{'data': OrderedDict([('sequenceNumber', 55555), ('swRelease', 'rel2'), ('macroId', 986895), ('payload', ['dead', 'beef', 'feed', 'aa', 'bbbbbbbb'])])}
Next message:
'''
simple_message SimpleMessage ::= data : {
sequenceNumber 256,
swRelease rel3,
payload {
'DEADBEEF'H
}
}
'''
data_payload = Payload()
data_payload.extend([Message(hexValue='DEADBEEF')])
msg_data = Data()
msg_data['sequenceNumber'] = SequenceNumber(256)
msg_data['swRelease'] = Data.swRelease('rel3')
msg_data['payload'] = data_payload
simple_message = SimpleMessage()
simple_message['data'] = msg_data
per_bytes = encode(asn1Spec=simple_message)
print('encoded data bytes as hex string:')
print(per_bytes.hex()) # py2: print(binascii.hexlify(per_bytes))
print('\n')
decoded = decode(per_stream=per_bytes, asn1Spec=SimpleMessage())
print('data message structure as string...:')
print(decoded)
print('...can be accessed like dictionary:')
print(decoded['data']['swRelease'])
print('\n')
print('...can be transformed into dictionary:')
print(decoded.to_dict())
above will output:
encoded data bytes as hex string:
60010043deadbeef
data message structure as string...:
SimpleMessage:
data=Data:
sequenceNumber=256
swRelease=rel3
payload=Payload:
0xdeadbeef
...can be accessed like dictionary:
rel3
...can be transformed into dictionary:
{'data': OrderedDict([('sequenceNumber', 256), ('swRelease', 'rel3'), ('payload', ['deadbeef'])])}
Decoding from string
When encoded bytes are given as string use bytearray.fromhex():
pure_string = str('70d90320f0f0f880dead40beef40feed00aac0bbbbbbbb')
real_bytes = bytearray.fromhex(pure_string)
decoded = decode(asn1Spec=SimpleMessage(), per_stream=real_bytes)
print(decoded)
above will output:
SimpleMessage:
data=Data:
sequenceNumber=55555
swRelease=rel2
macroId=986895
payload=Payload:
0xdead 0xbeef 0xfeed 0xaa 0xbbbbbbbb
Dictionary creation
Data above can be accessed like dictionary but it is not a dictionary. Method 'to_dict' was added to make dictionary creation simple:
msg_dict = decoded.to_dict()
print(type(msg_dict))
print(msg_dict)
output:
<class 'dict'>
{'data': OrderedDict([('sequenceNumber', 55555), ('swRelease', 'rel2'), ('macroId', 986895), ('payload', ['dead', 'beef', 'feed', 'aa', 'bbbbbbbb'])])}
To better show created structure, json.dumps() can be used:
print(json.dumps(msg_dict, indent=2))
output:
{
"data": {
"sequenceNumber": 55555,
"swRelease": "rel2",
"macroId": 986895,
"payload": [
"dead",
"beef",
"feed",
"aa",
"bbbbbbbb"
]
}
}
Additional info
For more examples please see library tests:
- parsing tests, located in test/parsing/ folder.
- coding/encoding tests, located in test/per folder.
All above examples and tests where checked using: https://asn1.io/asn1playground/
This library inherits extensively from pyasn1 library so BER and other encoding should also work here.
Parsing may take time - when trying to parse about 2000 lines of ASN.1 it took 15-20 minutes. Tests for parsing also take time.
asn1PERser uses logging library (for now only in decoder.py module). By default logging.NullHandler() is set as library top handler so no logs are visible. If you want to enable logging call asn1perser_logging_setup with (at least) handler parameter set to something else than logging.NullHandler:
import logging
from asn1PERser import asn1perser_logging_setup
asn1perser_logging_setup(logging.StreamHandler())
Above will print logging.INFO level logs to console.
History
See CHANGES file.
Known bugs
- Defining BitStringType type with default hexValue set to empty string (''), like:
...
d15 BIT STRING DEFAULT ''H,
...
will parse to Python code but running it will cause exception:
pyasn1.error.PyAsn1Error: BitStringType.fromHexString() error: invalid literal for int() with base 16: ''
- This will parse, but sorting algorith may not sort it corretly:
MySeq2 ::= MySeq1 -- ok since one level of nesting is ok
MySeq3 ::= MySeq1 -- ok since one level of nesting is ok
MySeq1 ::= SEQUENCE {
d00 INTEGER
}
MySeq4 ::= MySeq2 -- NOT OK! 2nd level of nesting
This will parse into:
MySeq4 = MySeq2
class MySeq1(SequenceType):
rootComponent = AdditiveNamedTypes(
NamedType('d00', IntegerType()),
)
componentType = rootComponent
MySeq3 = MySeq1
MySeq2 = MySeq1
so Python will not find MySeq2 - this will lead to NameError.
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