Beispiel #1
0
def generate_header_tlv(file_infos: list):
    """
    Generate TLV structure describing OTA image contents:

    Header ::=
        [0] FileInfoList: [
            [0]:
                [0] FileId: <file_id>
                [1] FileSize: <file_size>
            [1]:
                [0] FileId: <file_id>
                [1] FileSize: <file_size>
            ...
        ]
    """

    writer = TLVWriter()
    writer.put(None, {
        HeaderTag.FILE_INFO_LIST: [{
            FileInfoTag.FILE_ID: uint(file_id),
            FileInfoTag.FILE_SIZE: uint(file_size),
        } for file_id, file_size in file_infos]
    })

    return writer.encoding
Beispiel #2
0
 def test_struct_w_array_decode(self):
     res = _encode_from_native_and_then_decode(
         {
             0: [uint(5), uint(6)],
             1: 23
         }, TestClusterObjects.StructWithArray)
     self.assertEqual(res, TestClusterObjects.StructWithArray(X=[5, 6],
                                                              Y=23))
 def test_struct_w_string_and_string_decode(self):
     res = _encode_from_native_and_then_decode(
         {0: 'test-str', 1: {0: uint(12), 1: 34}, 2: b'byte-string'},
         TestClusterObjects.StructWithEmbeddedStructAndString)
     self.assertEqual(
         res, TestClusterObjects.StructWithEmbeddedStructAndString(
             X='test-str', Y=TestClusterObjects.C(X=12, Y=34), Z=b'byte-string'))
def generate_header_tlv(args: object, payload_size: int,
                        payload_digest: bytes):
    """
    Generate anonymous TLV structure with fields describing the OTA image contents
    """

    fields = {
        HeaderTag.VENDOR_ID: uint(args.vendor_id),
        HeaderTag.PRODUCT_ID: uint(args.product_id),
        HeaderTag.VERSION: uint(args.version),
        HeaderTag.VERSION_STRING: args.version_str,
        HeaderTag.PAYLOAD_SIZE: uint(payload_size),
        HeaderTag.DIGEST_TYPE:
        uint(DIGEST_ALGORITHM_ID[args.digest_algorithm]),
        HeaderTag.DIGEST: payload_digest,
    }

    if args.min_version is not None:
        fields.update({HeaderTag.MIN_VERSION: uint(args.min_version)})

    if args.max_version is not None:
        fields.update({HeaderTag.MAX_VERSION: uint(args.max_version)})

    if args.release_notes is not None:
        fields.update({HeaderTag.RELEASE_NOTES_URL: args.release_notes})

    writer = TLVWriter()
    writer.put(None, fields)

    return writer.encoding
 def test_basic_decode(self):
     res = _encode_from_native_and_then_decode(
         {0: uint(5), 1: 23}, TestClusterObjects.C)
     self.assertEqual(res, TestClusterObjects.C(X=5, Y=23))
 def test_struct_decode(self):
     res = _encode_from_native_and_then_decode(
         {0: uint(42), 1: 24}, TestClusterObjects.C)
     self.assertEqual(res, TestClusterObjects.C(X=42, Y=24))
    def test_struct_with_array_of_struct_with_array_decode(self):
        res = _encode_from_native_and_then_decode(
            {0: ['test-str1', 'test-str2', 'test-str3'],
             1: [{0: uint(12), 1: 34}, {0: uint(56), 1: 78}, {0: uint(23), 1: 33}],
             2: [{0: [uint(12), uint(34)], 1: 5678},
                 {0: [uint(1), uint(3)], 1: 57},
                 {0: [uint(2), uint(4)], 1: 68},
                 {0: [uint(233), uint(333)], 1: 333}],
             3: [{0: ['test-str4'], 1: [{0: uint(55), 1: 66}], 2: [{0: [uint(123)], 1: 456}], 3: []}]},
            TestClusterObjects.StructWithArrayOfStructWithArray)

        C = TestClusterObjects.C
        SWA = TestClusterObjects.StructWithArray
        SWAOSWA = TestClusterObjects.StructWithArrayOfStructWithArray

        data = TestClusterObjects.StructWithArrayOfStructWithArray(
            X=['test-str1', 'test-str2', 'test-str3'],
            Y=[C(X=12, Y=34), C(X=56, Y=78), C(X=23, Y=33)],
            Z=[SWA(X=[12, 34], Y=5678), SWA(X=[1, 3], Y=57),
               SWA(X=[2, 4], Y=68), SWA(X=[233, 333], Y=333)],
            W=[SWAOSWA(X=['test-str4'], Y=[C(X=55, Y=66)], Z=[SWA(X=[123], Y=456)], W=[])])

        self.assertEqual(res, data)