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trezor-firmware/tests/ui_tests/common.py

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from __future__ import annotations
import hashlib
import json
import re
import shutil
import typing as t
import warnings
from copy import deepcopy
from dataclasses import asdict, dataclass, field
from difflib import SequenceMatcher
from functools import cached_property
from itertools import zip_longest
from pathlib import Path
import pytest
from PIL import Image
from typing_extensions import Self
from trezorlib.debuglink import TrezorClientDebugLink as Client
UI_TESTS_DIR = Path(__file__).resolve().parent
SCREENS_DIR = UI_TESTS_DIR / "screens"
IMAGES_DIR = SCREENS_DIR / "all_images"
FIXTURES_FILE = UI_TESTS_DIR / "fixtures.json"
# fixtures.json are structured as follows:
# {
# "model": {
# "group": {
# "test_name": "hash",
# ...
# }}}...
# IOW, FixturesType = dict[<model>, dict[<group>, dict[<test_name>, <hash>]]]
FixturesType = t.NewType("FixturesType", "dict[str, dict[str, dict[str, str]]]")
FIXTURES: FixturesType = FixturesType({})
def get_current_fixtures() -> FixturesType:
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global FIXTURES
if not FIXTURES and FIXTURES_FILE.exists():
FIXTURES = FixturesType(json.loads(FIXTURES_FILE.read_text()))
return FIXTURES
def prepare_fixtures(
results: t.Iterable[TestResult],
remove_missing: bool = False,
) -> tuple[FixturesType, set[TestCase]]:
"""Prepare contents of fixtures.json"""
# set up brand new contents
grouped_tests: dict[tuple[str, str], dict[str, str]] = {}
for result in results:
idx = result.test.model, result.test.group
group = grouped_tests.setdefault(idx, {})
group[result.test.fixtures_name] = result.actual_hash
missing_tests: set[TestCase] = set()
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# merge with previous fixtures
fixtures = deepcopy(get_current_fixtures())
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for (model, group), new_content in grouped_tests.items():
# for every model/group, update the data with the new content
current_content = fixtures.setdefault(model, {}).setdefault(group, {})
if remove_missing:
new_tests = set(new_content.keys())
old_tests = set(current_content.keys())
missing_tests |= {
TestCase(model, group, test) for test in old_tests - new_tests
}
current_content.clear()
current_content.update(new_content)
return fixtures, missing_tests
def write_fixtures_only_new_results(
results: t.Iterable[TestResult],
dest: Path,
) -> None:
"""Generate new results file with only the tests that were actually run."""
content: dict[str, dict[str, dict[str, str]]] = {}
for res in results:
model = content.setdefault(res.test.model, {})
group = model.setdefault(res.test.group, {})
group[res.test.fixtures_name] = res.actual_hash
dest.write_text(json.dumps(content, indent=0, sort_keys=True) + "\n")
def write_fixtures_complete(
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results: t.Iterable[TestResult],
remove_missing: bool = False,
dest: Path = FIXTURES_FILE,
) -> None:
"""Generate new fixtures.json file with all the results, updated for the latest run."""
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global FIXTURES
content, _ = prepare_fixtures(results, remove_missing)
dest.write_text(json.dumps(content, indent=0, sort_keys=True) + "\n")
FIXTURES = FixturesType({}) # reset the cache
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def _rename_records(screen_path: Path) -> None:
IMAGES_DIR.mkdir(exist_ok=True)
# rename screenshots
for index, record in enumerate(sorted(screen_path.iterdir())):
record.replace(screen_path / f"{index:08}.png")
def screens_and_hashes(screen_path: Path) -> tuple[list[Path], list[str]]:
if not screen_path.exists():
return [], []
paths: list[Path] = []
hashes: list[str] = []
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for file in sorted(screen_path.iterdir()):
paths.append(file)
hashes.append(_get_image_hash(file))
return paths, hashes
def _get_image_hash(png_file: Path) -> str:
return hashlib.sha256(_get_bytes_from_png(png_file)).hexdigest()
def _get_bytes_from_png(png_file: Path) -> bytes:
"""Decode a PNG file into bytes representing all the pixels.
Is necessary because Linux and Mac are using different PNG encoding libraries,
and we need the file hashes to be the same on both platforms.
"""
return Image.open(str(png_file)).tobytes()
def _hash_files(path: Path) -> str:
files = path.iterdir()
hasher = hashlib.sha256()
for file in sorted(files):
hasher.update(_get_bytes_from_png(file))
return hasher.digest().hex()
def get_last_call_test_result(request: pytest.FixtureRequest) -> bool | None:
# if test did not finish, e.g. interrupted by Ctrl+C, the pytest_runtest_makereport
# did not create the attribute we need
if not hasattr(request.node, "rep_call"):
return None
return request.node.rep_call.passed # type: ignore
def _get_test_name_and_group(node_id: str) -> tuple[str, str]:
test_path, func_id = node_id.split("::", maxsplit=1)
assert test_path.endswith(".py")
# tests / device_tests / bitcoin / test_signtx.py
_tests, group_name, *path_in_group = test_path.split("/")
# remove ::TestClass:: if present because it is usually the same as the test file name
func_id = re.sub(r"::.*?::", "-", func_id)
test_path_prefix = "-".join(path_in_group)
new_name = f"{test_path_prefix}::{func_id}"
new_name = new_name.replace("/", "-")
# Test item name is usually function name, but when parametrization is used,
# parameters are also part of the name. Some functions have very long parameter
# names (tx hashes etc) that run out of maximum allowable filename length, so
# we limit the name to first 100 chars. This is not a problem with txhashes.
if len(new_name) <= 100:
return new_name, group_name
differentiator = hashlib.sha256(new_name.encode()).hexdigest()
shortened_name = new_name[:91] + "-" + differentiator[:8]
return shortened_name, group_name
def get_screen_path(test_name: str) -> Path | None:
path = SCREENS_DIR / test_name / "actual"
if path.exists():
return path
path = SCREENS_DIR / test_name / "recorded"
if path.exists():
print(
f"WARNING: no actual screens for {test_name}, recording may be outdated: {path}"
)
return path
print(f"WARNING: missing screens for {test_name}. Did the test run?")
return None
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def screens_diff(
expected_hashes: list[str], actual_hashes: list[str]
) -> t.Iterator[tuple[str | None, str | None]]:
diff = SequenceMatcher(
None, expected_hashes, actual_hashes, autojunk=False
).get_opcodes()
# Example diff result:
# [('equal', 0, 1, 0, 1), ('replace', 1, 2, 1, 3), ('equal', 2, 6, 3, 7)]
# For situation when:
# - first screen is the same for both
# - second screen has changes and there is new third screen
# - rest is the same
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for _tag, i1, i2, j1, j2 in diff:
# tag is one of "replace", "delete", "equal", "insert"
# i1, i2 and j1, j2 are slice indexes for expected/actual respectively
# The output of get_opcodes is an ordered sequence of instructions
# for converting expected to actual. By taking the subslices and zipping
# together, we get the equal subsequences aligned and Nones at deletion
# or insertion points.
expected_slice = expected_hashes[i1:i2]
actual_slice = actual_hashes[j1:j2]
yield from zip_longest(expected_slice, actual_slice, fillvalue=None)
@dataclass(frozen=True)
class TestCase:
model: str
group: str
name: str
@classmethod
def build(cls, client: Client, request: pytest.FixtureRequest) -> Self:
name, group = _get_test_name_and_group(request.node.nodeid)
return cls(
model=f"T{client.features.model}",
name=name,
group=group,
)
@property
def id(self) -> str:
return f"{self.model}-{self.group}-{self.name}"
@property
def fixtures_name(self) -> str:
return f"{self.model}_{self.name}"
@property
def dir(self) -> Path:
return SCREENS_DIR / self.id
@property
def screen_text_file(self) -> Path:
return self.dir / "screens.txt"
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@property
def actual_dir(self) -> Path:
return self.dir / "actual"
@cached_property
def actual_screens(self) -> tuple[list[Path], list[str]]:
_rename_records(self.actual_dir)
return screens_and_hashes(self.actual_dir)
@property
def recorded_dir(self) -> Path:
return self.dir / "recorded"
@cached_property
def recorded_screens(self) -> tuple[list[Path], list[str]]:
return screens_and_hashes(self.recorded_dir)
def build_result(self, request: pytest.FixtureRequest) -> TestResult:
_rename_records(self.actual_dir)
result = TestResult(
test=self,
passed=get_last_call_test_result(request),
actual_hash=_hash_files(self.actual_dir),
images=self.actual_screens[1],
)
result.save_metadata()
return result
@dataclass
class TestResult:
test: TestCase
passed: bool | None
actual_hash: str
images: list[str]
expected_hash: str | None = field(default=None)
def __post_init__(self) -> None:
if self.expected_hash is None:
self.expected_hash = (
get_current_fixtures()
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.get(self.test.model, {})
.get(self.test.group, {})
.get(self.test.fixtures_name)
)
def save_metadata(self) -> None:
metadata = asdict(self)
(self.test.dir / "metadata.json").write_text(
json.dumps(metadata, indent=2, sort_keys=True) + "\n"
)
def succeeded_in_ui_comparison(self) -> bool:
return self.actual_hash == self.expected_hash
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@classmethod
def load(cls, testdir: Path) -> Self:
metadata = json.loads((testdir / "metadata.json").read_text())
test = TestCase(
model=metadata["test"]["model"],
group=metadata["test"]["group"],
name=metadata["test"]["name"],
)
return cls(
test=test,
passed=metadata["passed"],
actual_hash=metadata["actual_hash"],
expected_hash=metadata["expected_hash"],
images=metadata["images"],
)
@classmethod
def recent_results(cls) -> t.Iterator[Self]:
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for testdir in sorted(SCREENS_DIR.iterdir()):
meta = testdir / "metadata.json"
if not meta.exists():
continue
yield cls.load(testdir)
@classmethod
def recent_ui_failures(cls) -> t.Iterator[Self]:
"""Returning just the results that resulted in UI failure."""
for result in cls.recent_results():
if not result.succeeded_in_ui_comparison():
yield result
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def store_recorded(self) -> None:
self.expected_hash = self.actual_hash
shutil.rmtree(self.test.recorded_dir, ignore_errors=True)
shutil.copytree(
self.test.actual_dir,
self.test.recorded_dir,
symlinks=True,
)
def diff_lines(self) -> t.Iterable[tuple[str | None, str | None]]:
_, expected_hashes = self.test.recorded_screens
if not expected_hashes:
warnings.warn("No recorded screens found, is this a new test?")
_, actual_hashes = self.test.actual_screens
return screens_diff(expected_hashes, actual_hashes)