Python module to handle type-length-value (TLV) encoded data 8-bit type, 8-bit length, and N-byte value as described within the Apple HomeKit Accessory Protocol Specification Non-Commercial Version Release R2.
Project description
Type-Length-Value8 (TLV8) for python
Type-Length-Value (TLV) are used to encode arbitrary data. In this case the type and length are represented by 1 byte each. Hence the name TLV8.
A TLV8 entry consists of the following parts:
- the type: this 8 bit field denotes the type of information that is represented by the data.
- the length: this 8 bit field denotes the length of the data (this does not include the 2 bytes for type and length. For data longer than 255 bytes, there is a defined procedure available.
- the value: these length bytes represent the value of this TLV. The different types of data is represented differently:
- bytes: this is raw binary data and will be used as is, no further interpretation takes place
- tlv8: this is a specialized case of bytes values. Using this instead of pure bytes enables nesting of data and creating a hierarchy.
- integer: integers are stored in little-endian byte order and are encoded with the minimal number of bytes possible (1, 2, 4 or 8)
- float: floats are stored as little-endian ieee754 numbers
- string: strings are always UTF-8 encoded and do not contain the terminating NULL byte
TLV8 entries whose content is longer than 255 bytes are split up into fragments. The type is repeated is repeated in each fragment, only the last fragment may contain less than 255 bytes. Fragments of one TLV8 entry must be continuous.
Multiple TLV8 entries can be combined to create larger structures. Entries of different types can placed one after another. Entries of the same type must be separated by a TLV8 entry of a different type (and probably zero length).
TLV8 entries of unknown or unwanted type are to be silently ignored.
Examples
simple TLV8s
Encoding of some atomic examples:
- an empty TLV of type 42:
[42, None]
will be encoded asb'\x2a\x00'
. - a TLV of type 2 with 2 bytes
0x12, 0x34
:[2, b'\x12\x34']
will be encoded asb'\x02\x02\x12\x34'
- a TLV of type 3 that contains the TLV from above:
[3, [2, b'\x12\x34']]
will be encoded asb'\x03\x04\x02\x02\x12\x34'
- a TLV of type 4 that contains 1024:
[4, 1024]
will be encoded asb'\x04\0x02\x00\x04'
- a TLV of type 5 that contains 3.141:
[4, 3.141]
will be encoded asb'\x04\x04\x0a\xd7\x23\x41'
- a TLV of type 23 with string
Hello 🌍
:[23, 'Hello 🌍']
will be encoded asb'\x17\x0a\x48\x65\x6c\x6c\x6f\x20\xf0\x9f\x8c\x8d'
fragmented TLV8s
Encoding of a fragmented TLV8 entry:
- an TLV of type 6 that contains 256 bytes from 0 to 255:
[6, b'\x00\x01...\xfe\xff']
will be encoded asb'\x06\xff\x00...\xfe\x06\x01\xff'
combined TLV8s
Encoding of two TLV8 Entries that follow each other in the input list:
- the combination of 2 TLV8 entries (
[1, 123]
and[2, 'Hello']
) will be encoded asb'\x01\x01\x7b\x02\x05\x48\x65\x6c\x6c\x6f'
sequences of TLV8s of same type:
- a sequence of 3 TLV8 entries of type 1 (
[1, 1]
,[1, 2]
and[1, 1]
) will be encoded asb'\x01\x01\x01\xff\x00\x01\x01\x02\xff\x00\x01\x01\x03'
Using in code
There are two main use cases of this module.
Create a bytes representation
Here we want to have a comfortable way to create a data structure in python and to encode this structure into a bytes value.
encode a simple list
For example, create a representation containing the following structure:
- Type: 1, Value: 23
- Type: 2, Value: 2345
This can be code like that:
import tlv8
structure = [
tlv8.Entry(1, 23),
tlv8.Entry(2, 2345)
]
bytes_data = tlv8.encode(structure)
print(bytes_data)
And this will result in: b'\x01\x01\x17\x02\x02)\t'
Nesting structures
Representing a line ([x: 10, y: 20] - [x: 30, y: 40]) between to points could be represented like:
- Type: 1, Value:
- Type: 3, Value: 10
- Type: 4, Value: 20
- Type: 2, Value:
- Type: 3, Value: 30
- Type: 4, Value: 40
import tlv8
structure = [
tlv8.Entry(1, [
tlv8.Entry(3, 10),
tlv8.Entry(4, 10),
]),
tlv8.Entry(2, [
tlv8.Entry(3, 30),
tlv8.Entry(4, 40),
])
]
bytes_data = tlv8.encode(structure)
print(bytes_data)
And this will result in: b'\x01\x06\x03\x01\n\x04\x01\n\x02\x06\x03\x01\x1e\x04\x01('
Decode a bytes representation
Decoding TLV8 entries from bytes data will return all bytes from all first level entries. This includes possible separator entries between entries of the same type.
Decoding can be assisted by hinting with an expected structure. To represent the structure in python dict
objects are used and nested. The keys of the dict
objects are the type ids of the TLV8 entries. If the id of an entry is not contained in the structure, it will be ignored.
decode the simple list
import tlv8
in_data = b'\x01\x01\x17\x02\x02)\t'
expected_structure = {
1: tlv8.DataType.INTEGER,
2: tlv8.DataType.INTEGER
}
result = tlv8.decode(in_data, expected_structure)
print(tlv8.format_string(result))
This will result in:
[
<1, 23>,
<2, 2345>,
]
decode nested data
import tlv8
in_data = b'\x01\x06\x03\x01\n\x04\x01\n\x02\x06\x03\x01\x1e\x04\x01('
sub_struct = {
3: tlv8.DataType.INTEGER,
4: tlv8.DataType.INTEGER
}
expected_structure = {
1: sub_struct,
2: sub_struct
}
result = tlv8.decode(in_data, expected_structure)
print(tlv8.format_string(result))
This will result in:
[
<1, [
<3, 10>,
<4, 10>,
]>,
<2, [
<3, 30>,
<4, 40>,
]>,
]
Using IntEnum data during encoding and decoding
Using enumerations might increase readabilty of encode end decode processes.
During encoding
It is possible to use enum.IntEnum
for encoding:
import tlv8
import enum
class Keys(enum.IntEnum):
X = 42
# ...
class Values(enum.IntEnum):
Y = 23
# ...
result = tlv8.encode([
tlv8.Entry(Keys.X, Values.Y)
])
print(result)
This will result in:
b'*\x01\x17'
During decoding
As during encoding, enum.IntEnum
can be used for keys and values during decoding:
import tlv8
import enum
class Keys(enum.IntEnum):
X = 42
# ...
class Values(enum.IntEnum):
Y = 23
# ...
result = tlv8.decode(b'*\x01\x17', {
Keys.X: Values
})
print(tlv8.format_string(result))
print(type(result[0].type_id), type(result[0].data))
This will result in
[
<Keys.X, Values.Y>,
]
<enum 'Keys'> <enum 'Values'>
So the type_id
and the data
fields are not simple int
instance anymore but values of their enumerations. This alos helps during using format_string
to get a easier to read output.
Coding
The module offers the following primary functions and classes.
function format_string
This function formats a list of TLV8 Entry objects as str. The hierarchy of the entries will be represented by increasing the indentation of the output.
The parameters are:
entries
: a python list of tlv8.Entries objectsindent
: the level of indentation to be used, this defaults to 0 and is increased on recursive calls for nested entries.
The function returns a str
instance and raises ValueError
instances if the input is not a list of tlv8.Entry
objects.
Example:
import tlv8
data = [
tlv8.Entry(1, 3.141),
tlv8.Entry(2, [
tlv8.Entry(3, 'hello'),
tlv8.Entry(4, 'world'),
]),
tlv8.Entry(1, 2)
]
print(tlv8.format_string(data))
This will become:
[
<1, 3.141>,
<2, [
<3, hello>,
<4, world>,
]>,
<1, 2>,
]
function encode
Function to encode a list of tlv8.Entry
objects into a sequence of bytes following the rules for creating TLVs. The separator_type_id
is used for the separating entries between two entries of the same type.
The parameters are:
entries
: a list oftlv8.Entry
objectsseparator_type_id
: the 8-bit type id of the separator to be used. The default is (as defined in table 5-6, page 51 of HomeKit Accessory Protocol Specification Non-Commercial Version Release R2) 0xff.
The function returns an instance of bytes
. This is empty if nothing was encoded. The function raises ValueError
if the input parameter is not a list of tlv8.Entry
objects or a data value is not encodable. A ValueError
will also be raised if the separator_type_id
is used as type_id
in one of the entries as well.
Example:
import tlv8
data = [
tlv8.Entry(1, 3.141),
tlv8.Entry(2, [
tlv8.Entry(3, 'hello'),
tlv8.Entry(4, 'world')
]),
tlv8.Entry(1, 2)
]
print(tlv8.encode(data))
This will result in:
b'\x01\x04%\x06I@\x02\x0e\x03\x05hello\x04\x05world\x01\x01\x02'
function decode
Function to decode a bytes
or bytearray
instance into a list of tlv8.Entry
instances. This reverses the process done by the encode
function.
The parameters are:
data
: abytes
orbytearray
instance to be parsedexpected
: a dict of type ids onto expectedtlv8.DataType
values. If the expected entry is again atlv8.Entry
that should be parsed, use another dict to describe the hiearchical structure. This defaults toNone
which means not filtering will be performed but also no interpretation of the entries is done. This means they will be returned asbytes
sequence.strict_mode
: This defaults toFalse
. If set toTrue
, this will raise additionalValueError
instances if there are possible missing separators between entries of the same type.
The function returns a list
instance and raises ValueError
instances if the input is either not a bytes
object or an invalid tlv8 structure.
Example:
import tlv8
data = b'\x01\x04%\x06I@\x02\x0e\x03\x05hello\x04\x05world\x03\x01\x02'
structure = {
1: tlv8.DataType.FLOAT,
2: {
3: tlv8.DataType.STRING,
4: tlv8.DataType.STRING
},
3: tlv8.DataType.INTEGER
}
print(tlv8.decode(data, structure))
This will result in:
[
<1, 3.1410000324249268>,
<2, [
<3, hello>,
<4, world>,
]>,
<3, 2>,
]
class DataType
This enumeration is used to represent the data type of a tlv8.Entry
.
Enumeration Entry | TLV8 type | Python type |
---|---|---|
BYTES | bytes | bytes , also bytearray for encoding |
TLV8 | tlv8 | custom class tlv8.Entry for encoding and dict for the expected structure during decoding |
INTEGER | integer | int |
FLOAT | float | float |
STRING | string | str |
AUTODETECT | n/a | this is used declare that a data type is not preset but will be determined by the python type of the data |
class Entry
This class represents a single entry in a TLV8 data set. The class overrides the methods __eq__
, __str__
and __repr__
to fit the needs of the application.
constructor
The constructor takes the following parameters:
type_id
: the type id of the entry. Must be between 0 and 255 (8-bit type id).data
: the data to be stored in this entry.data_type
: the data type of the entry. Defaults toDataType.AUTODETECT
.length
: if set, this overrides the automatic length detection. This used for integer, when there is special need to set higher byte count than the value would need.
The constructor raises a ValueError
if the type_id
is not within the 8-bit range.
encode() -> bytes
This function is called to encode the data stored in this Entry
. The data type of the data will be used to decide how to encode the data. It uses the tlv8.encode()
function to encode nested lists of tlv8.Entry
objects.
format_string() -> str
This function formats the data stored in this entry as readable string. It is mostly called by tlv8.format_string()
.
class EntryList
This class represents a list of entries. The class overrides the methods __repr__
, __eq__
, __len__
, __getitem__
and __iter__
to fit the needs of the application.
constructor
The constructor takes the following parameters:
data
: if set, thislist
oftlv8.Entry
instances is used to initialize theEntryList
.
The constructor raised a ValueError
if the data is either not a list
or not a list of tlv8.Entry
instances.
append(entry)
Append the tlv8.Entry
to the EntryList
. It performs type checks, so only tlv8.Entry
instances can be appended.
assert_has(type_id, message)
Looks for a tlv8.Entry
instance with type_id
in the first level of the EntryList
. If none is found, it raises an AssertionError
with the given message
. This does not iterate recursivly, because the same type id may have different meanings on different levels (and different contexts).
encode(self, separator_type_id)
Encodes the EntryList
using the given separator type id. This relies on tlv8.encode()
.
by_id(type_id)
Filters the EntryList
and returns only Entry
instance whose type_id
match the given one. If no Entry
instances
were found it returns an empty list.
first_by_id(type_id)
Search the EntryList
for the first Entry
with the given type_id
. If no such Entry
was found, it returns None
.
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