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vorta/tests/unit/test_utils.py

167 lines
6 KiB
Python

import sys
import uuid
import pytest
from vorta.keyring.abc import VortaKeyring
from vorta.utils import (
find_best_unit_for_sizes,
get_path_datasize,
is_system_tray_available,
normalize_path,
pretty_bytes,
sort_sizes,
)
def test_keyring():
UNICODE_PW = 'kjalsdfüadsfäadsfß'
REPO = f'ssh://asdf123@vorta-test-repo.{uuid.uuid4()}.com/./repo' # Random repo URL
keyring = VortaKeyring.get_keyring()
keyring.set_password('vorta-repo', REPO, UNICODE_PW)
assert keyring.get_password("vorta-repo", REPO) == UNICODE_PW
@pytest.mark.parametrize(
"input_sizes, expected_sorted",
[
# Basic ordering
(["1.0 GB", "2.0 MB", "3.0 KB"], ["3.0 KB", "2.0 MB", "1.0 GB"]),
# Multiple same units
(["3.0 GB", "2.0 GB", "1.0 GB"], ["1.0 GB", "2.0 GB", "3.0 GB"]),
# Multiple different units
(["2.0 MB", "3.0 GB", "1.0 KB", "5.0 GB"], ["1.0 KB", "2.0 MB", "3.0 GB", "5.0 GB"]),
# Larger to smaller units
(["1.0 YB", "1.0 ZB", "1.0 EB", "1.0 PB"], ["1.0 PB", "1.0 EB", "1.0 ZB", "1.0 YB"]),
# Skipping non-numeric sizes
(["2x MB", "3.0 KB", "apple GB", "1.0 GB"], ["3.0 KB", "1.0 GB"]),
# Skipping invalid suffix
(["1.0 XX", "5.0 YY", "9.0 ZZ", "1.0 MB"], ["1.0 MB"]),
# Floats with decimals
(["2.5 GB", "2.3 GB", "1.1 MB"], ["1.1 MB", "2.3 GB", "2.5 GB"]),
# Checking the same sizes across different units
(["1.0 MB", "1000.0 KB"], ["1000.0 KB", "1.0 MB"]),
# Handle empty lists
([], []),
],
)
def test_sort_sizes(input_sizes, expected_sorted):
assert sort_sizes(input_sizes) == expected_sorted
@pytest.mark.parametrize(
"precision, expected_unit",
[
(0, 1), # return units as "1" (represents KB), min=100KB
(1, 2), # return units as "2" (represents MB), min=0.1MB
(2, 2), # still returns KB, since 0.1MB < min=0.001 GB to allow for GB to be best_unit
],
)
def test_best_unit_for_sizes_precision(precision, expected_unit):
MB = 1000000
sizes = [int(0.1 * MB), 100 * MB, 2000 * MB]
best_unit = find_best_unit_for_sizes(sizes, metric=True, precision=precision)
assert best_unit == expected_unit
@pytest.mark.parametrize(
"sizes, expected_unit",
[
([], 0), # no sizes given but should still return "0" (represents bytes) as best representation
([102], 0), # non-metric size 102 < 0.1KB (102 < 0.1 * 1024), so it will return 0 instead of 1
([103], 1), # non-metric size 103 > 0.1KB (103 < 0.1 * 1024), so it will return 1
],
)
def test_best_unit_for_sizes_nonmetric(sizes, expected_unit):
best_unit = find_best_unit_for_sizes(sizes, metric=False, precision=1)
assert best_unit == expected_unit
@pytest.mark.parametrize(
"size, metric, precision, fixed_unit, expected_output",
[
(10**5, True, 1, 2, "0.1 MB"), # 100KB, metric, precision 1, fixed unit "2" (MB)
(10**6, True, 0, 2, "1 MB"), # 1MB, metric, precision 0, fixed unit "2" (MB)
(10**6, True, 1, 2, "1.0 MB"), # 1MB, metric, precision 1, fixed unit "2" (MB)
(1024 * 1024, False, 1, 2, "1.0 MiB"), # 1MiB, nonmetric, precision 1, fixed unit "2" (MiB)
],
)
def test_pretty_bytes_fixed_units(size, metric, precision, fixed_unit, expected_output):
"""
Test pretty bytes when specifying a fixed unit of measurement
"""
output = pretty_bytes(size, metric=metric, precision=precision, fixed_unit=fixed_unit)
assert output == expected_output
@pytest.mark.parametrize(
"size, metric, expected_output",
[
(10**6, True, "1.0 MB"), # 1MB, metric
(10**24, True, "1.0 YB"), # 1YB, metric
(10**30, True, "1000000.0 YB"), # test huge number, metric
(1024 * 1024, False, "1.0 MiB"), # 1MiB, nonmetric
(2**40 * 2**40, False, "1.0 YiB"), # 1YiB, nonmetric
],
)
def test_pretty_bytes_nonfixed_units(size, metric, expected_output):
# test pretty bytes when NOT specifying a fixed unit of measurement
output = pretty_bytes(size, metric=metric, precision=1)
assert output == expected_output
def test_normalize_path():
"""
Test that path is normalized for macOS, but does nothing for other platforms.
"""
input_path = '/Users/username/caf\u00e9/file.txt'
expected_output = '/Users/username/café/file.txt'
actual_output = normalize_path(input_path)
if sys.platform == 'darwin':
assert actual_output == expected_output
else:
assert actual_output == input_path
def test_get_path_datasize(tmpdir):
"""
Test that get_path_datasize() works correctly when passed excluded patterns.
"""
# Create a temporary directory for testing
test_dir = tmpdir.mkdir("test_dir")
test_file = test_dir.join("test_file.txt")
test_file.write("Hello, World!")
# Create a subdirectory with a file to exclude
excluded_dir = test_dir.mkdir("excluded_dir")
excluded_file = excluded_dir.join("excluded_file.txt")
excluded_file.write("Excluded file, should not be checked.")
exclude_patterns = [f"{excluded_dir}"]
# Test when the path is a directory
data_size, files_count = get_path_datasize(str(test_dir), exclude_patterns)
assert data_size == len("Hello, World!")
assert files_count == 1
# Test when the path is a file
data_size, files_count = get_path_datasize(str(test_file), exclude_patterns)
assert data_size == len("Hello, World!")
assert files_count == 1
# Test when the path is a directory with an excluded file
data_size, files_count = get_path_datasize(str(excluded_dir), exclude_patterns)
assert data_size == 0
assert files_count == 0
def test_is_system_tray_available(mocker):
"""
Sanity check to ensure proper behavior
"""
mocker.patch('PyQt6.QtWidgets.QSystemTrayIcon.isSystemTrayAvailable', return_value=False)
assert is_system_tray_available() is False
mocker.patch('PyQt6.QtWidgets.QSystemTrayIcon.isSystemTrayAvailable', return_value=True)
assert is_system_tray_available() is True