1
0
mirror of https://github.com/trezor/trezor-firmware.git synced 2024-11-25 08:58:14 +00:00
trezor-firmware/core/tests/test_apps.common.paths.py
obrusvit e073e619c9 chore(tests): re-run black and isort on core/tests
isort set to skip the first necessary "from common import *" line. A
better solution would be to get rid of the need of this import in the
future.

[no changelog]
2024-02-22 12:10:12 +01:00

215 lines
7.2 KiB
Python

from common import * # isort:skip
from trezor.utils import ensure
from apps.common.paths import *
# NOTE: moved into tests not to occupy flash space
# in firmware binary, when it is not used in production
class NeverMatchingSchema:
@staticmethod
def match(path: "Bip32Path") -> bool:
return False
class TestPaths(unittest.TestCase):
def test_is_hardened(self):
self.assertTrue(is_hardened(H_(44)))
self.assertTrue(is_hardened(H_(0)))
self.assertTrue(is_hardened(H_(99999)))
self.assertFalse(is_hardened(44))
self.assertFalse(is_hardened(0))
self.assertFalse(is_hardened(99999))
def test_path_is_hardened(self):
self.assertTrue(path_is_hardened([H_(44), H_(1), H_(0)]))
self.assertTrue(path_is_hardened([H_(0)]))
self.assertFalse(path_is_hardened([44, H_(44), H_(0)]))
self.assertFalse(path_is_hardened([0]))
self.assertFalse(path_is_hardened([H_(44), H_(1), H_(0), H_(0), 0]))
class TestPathSchemas(unittest.TestCase):
def assertMatch(self, schema, path):
self.assertTrue(
schema.match(path),
f"Expected schema {repr(schema)} to match path {address_n_to_str(path)}",
)
def assertMismatch(self, schema, path):
self.assertFalse(
schema.match(path),
f"Expected schema {repr(schema)} to not match path {address_n_to_str(path)}",
)
def assertEqualSchema(self, schema_a, schema_b):
def is_equal(a, b):
if isinstance(a, Interval) and isinstance(b, Interval):
return a.min == b.min and a.max == b.max
return set(a) == set(b)
ensure(
all(is_equal(a, b) for a, b in zip(schema_a.schema, schema_b.schema))
and is_equal(schema_a.trailing_components, schema_b.trailing_components),
f"Schemas differ:\nA = {repr(schema_a)}\nB = {repr(schema_b)}",
)
def test_always_never_matching(self):
paths = [
[],
[0],
[H_(0)],
[44],
[H_(44)],
[H_(44), H_(0), H_(0), 0, 0],
[H_(44), H_(0), H_(0), H_(0), H_(0)],
[H_(44), H_(0), H_(0), H_(0), H_(0)] * 10,
]
for path in paths:
self.assertMatch(AlwaysMatchingSchema, path)
self.assertMismatch(NeverMatchingSchema, path)
def test_pattern_fixed(self):
pattern = "m/44'/0'/0'/0/0"
schema = PathSchema.parse(pattern, 0)
self.assertMatch(schema, [H_(44), H_(0), H_(0), 0, 0])
paths = [
[],
[0],
[H_(0)],
[44],
[H_(44)],
[44, 0, 0, 0, 0],
[H_(44), H_(0), H_(0), H_(0), H_(0)],
[H_(44), H_(0), H_(0), H_(0), H_(0)] * 10,
]
for path in paths:
self.assertMismatch(schema, path)
def test_ranges_sets(self):
pattern_ranges = "m/44'/[100-109]'/[0-20]"
pattern_sets = "m/44'/[100,105,109]'/[0,10,20]"
schema_ranges = PathSchema.parse(pattern_ranges, 0)
schema_sets = PathSchema.parse(pattern_sets, 0)
paths_good = [
[H_(44), H_(100), 0],
[H_(44), H_(100), 10],
[H_(44), H_(100), 20],
[H_(44), H_(105), 0],
[H_(44), H_(105), 10],
[H_(44), H_(105), 20],
[H_(44), H_(109), 0],
[H_(44), H_(109), 10],
[H_(44), H_(109), 20],
]
for path in paths_good:
self.assertMatch(schema_ranges, path)
self.assertMatch(schema_sets, path)
paths_bad = [
[H_(44), H_(100)],
[H_(44), H_(100), 0, 0],
[H_(44), 100, 0],
[H_(44), 100, H_(0)],
[H_(44), H_(99), 0],
[H_(44), H_(110), 0],
[H_(44), H_(100), 21],
]
for path in paths_bad:
self.assertMismatch(schema_ranges, path)
self.assertMismatch(schema_sets, path)
self.assertMatch(schema_ranges, [H_(44), H_(104), 19])
self.assertMismatch(schema_sets, [H_(44), H_(104), 19])
def test_brackets(self):
pattern_a = "m/[0]'/[0-5]'/[0,1,2]'/[0]/[0-5]/[0,1,2]"
pattern_b = "m/0'/0-5'/0,1,2'/0/0-5/0,1,2"
schema_a = PathSchema.parse(pattern_a, 0)
schema_b = PathSchema.parse(pattern_b, 0)
self.assertEqualSchema(schema_a, schema_b)
def test_wildcard(self):
pattern = "m/44'/0'/*"
schema = PathSchema.parse(pattern, 0)
paths_good = [
[H_(44), H_(0)],
[H_(44), H_(0), 0],
[H_(44), H_(0), 0, 1, 2, 3, 4, 5, 6, 7, 8],
]
for path in paths_good:
self.assertMatch(schema, path)
paths_bad = [
[H_(44)],
[H_(44), H_(0), H_(0)],
[H_(44), H_(0), 0, 1, 2, 3, 4, 5, 6, 7, H_(8)],
]
for path in paths_bad:
self.assertMismatch(schema, path)
def test_substitutes(self):
pattern_sub = "m/44'/coin_type'/account'/change/address_index"
pattern_plain = "m/44'/19'/0-100'/0,1/0-1000000"
schema_sub = PathSchema.parse(pattern_sub, slip44_id=19)
# use wrong slip44 id to ensure it doesn't affect anything
schema_plain = PathSchema.parse(pattern_plain, slip44_id=0)
self.assertEqualSchema(schema_sub, schema_plain)
def test_copy(self):
schema_normal = PathSchema.parse("m/44'/0'/0'/0/0", slip44_id=0)
self.assertEqualSchema(schema_normal, schema_normal.copy())
schema_wildcard = PathSchema.parse("m/44'/0'/0'/0/**", slip44_id=0)
self.assertEqualSchema(schema_wildcard, schema_wildcard.copy())
def test_parse(self):
schema_parsed = PathSchema.parse("m/44'/0-5'/0,1,2'/0/**", slip44_id=0)
schema_manual = PathSchema(
[
(H_(44),),
Interval(H_(0), H_(5)),
set((H_(0), H_(1), H_(2))),
(0,),
],
trailing_components=Interval(0, 0xFFFF_FFFF),
)
self.assertEqualSchema(schema_manual, schema_parsed)
def test_restrict(self):
PATTERN_BIP44 = "m/44'/coin_type'/account'/change/address_index"
# Restrict coin type to Bitcoin.
schema = PathSchema.parse(PATTERN_BIP44, (0, 145))
self.assertTrue(schema.restrict([H_(44), H_(0)]))
expected = PathSchema.parse(PATTERN_BIP44, 0)
self.assertEqualSchema(schema, expected)
# Restrict coin type to Bitcoin Cash and account 2.
schema = PathSchema.parse(PATTERN_BIP44, (0, 145))
self.assertTrue(schema.restrict([H_(44), H_(145), H_(2)]))
expected = PathSchema.parse("m/44'/145'/2'/change/address_index", 0)
self.assertEqualSchema(schema, expected)
# Restrict wildcards.
schema = PathSchema.parse("m/10018'/**", 0)
self.assertTrue(schema.restrict([H_(10018), H_(3), 7]))
expected = PathSchema.parse("m/10018'/3'/7/**", 0)
self.assertEqualSchema(schema, expected)
# Restrict to a never-matching schema.
schema = PathSchema.parse(PATTERN_BIP44, (0, 145))
self.assertFalse(schema.restrict([H_(44), H_(0), 0]))
if __name__ == "__main__":
unittest.main()