#!/usr/bin/env python3 import sys try: import gi import re import os from gi.repository import GLib, Gio import unittest import socket import struct import subprocess import shutil import traceback import glob import tempfile except Exception as e: print("Missing dependencies: %s" % str(e)) sys.exit(77) FPrint = None ctx = GLib.main_context_default() class Connection: def __init__(self, addr): self.addr = addr def __enter__(self): self.con = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM) self.con.connect(self.addr) return self.con def __exit__(self, exc_type, exc_val, exc_tb): self.con.close() del self.con class GLibErrorMessage: def __init__(self, component, level, expected_message): self.level = level self.component = component self.expected_message = expected_message def __enter__(self): GLib.test_expect_message(self.component, self.level, self.expected_message) def __exit__(self, exc_type, exc_val, exc_tb): (filename, line, func_name, text) = traceback.extract_stack()[-2] GLib.test_assert_expected_messages_internal(self.component, filename, line, func_name) class VirtualDeviceBase(unittest.TestCase): @classmethod def setUpClass(cls): unittest.TestCase.setUpClass() cls.tmpdir = tempfile.mkdtemp(prefix='libfprint-') driver_name = cls.driver_name if hasattr(cls, 'driver_name') else None if not driver_name: driver_name = re.compile(r'(? 0 def enroll_in_progress(): if self._enroll_stage < 0 and not self._enrolled: return True if isinstance(self._enrolled, Exception): raise(self._enrolled) nonlocal retries self.assertLessEqual(self._enroll_stage, self.dev.get_nr_enroll_stages()) if should_retry and retries > retry_scan: self.assertEqual(self._enroll_stage, retries - 1) else: self.assertEqual(self._enroll_stage, retries) if retries == retry_scan + 1: self.assertIsNotNone(self._enroll_progress_error) self.assertEqual(self._enroll_progress_error.code, FPrint.DeviceRetry.TOO_SHORT) else: self.assertIsNone(self._enroll_progress_error) if self._enroll_stage < self.dev.get_nr_enroll_stages(): self._enroll_stage = -1 self.assertIsNone(self._enrolled) self.assertEqual(self.dev.get_finger_status(), FPrint.FingerStatusFlags.NEEDED) if retry_scan == retries: GLib.idle_add(self.send_auto, FPrint.DeviceRetry.TOO_SHORT) else: GLib.idle_add(self.send_command, 'SCAN', nick) retries += 1 return not self._enrolled self.assertEqual(self.dev.get_finger_status(), FPrint.FingerStatusFlags.NONE) self.send_command('SCAN', nick) template = FPrint.Print.new(self.dev) template.set_finger(finger) template.set_username(username) self.dev.enroll(template, callback=done_cb, progress_cb=progress_cb) while enroll_in_progress(): ctx.iteration(False) self.assertEqual(self._enroll_stage, retries if not should_retry else retries - 1) self.assertEqual(self._enroll_stage, self.dev.get_nr_enroll_stages()) self.assertEqual(self.dev.get_finger_status(), FPrint.FingerStatusFlags.NONE) self.assertEqual(self._enrolled.get_device_stored(), self.dev.has_storage()) self.assertEqual(self._enrolled.props.driver, self.dev.get_driver()) self.assertEqual(self._enrolled.props.device_id, self.dev.get_device_id()) self.assertEqual(self._enrolled.props.device_stored, self.dev.has_storage()) self.assertEqual(self._enrolled.props.fpi_data.unpack(), nick) self.assertIsNone(self._enrolled.props.image) return self._enrolled def start_verify(self, p, identify=False): self._verify_match = None self._verify_fp = None self._verify_error = None self._verify_report_match = None self._verify_report_print = None self._verify_completed = False self._verify_reported = False self._cancellable = Gio.Cancellable() if identify: self.assertTrue(self.dev.supports_identify()) def match_cb(dev, match, pnt, data, error): self._verify_reported = True self._verify_report_match = match self._verify_report_print = pnt self._verify_report_error = error def verify_cb(dev, res): try: self._verify_match, self._verify_fp = ( dev.identify_finish(res) if identify else dev.verify_finish(res)) except gi.repository.GLib.Error as e: self._verify_error = e self._verify_completed = True if identify: self.dev.identify(p if isinstance(p, list) else [p], cancellable=self._cancellable, match_cb=match_cb, callback=verify_cb) else: self.dev.verify(p, cancellable=self._cancellable, match_cb=match_cb, callback=verify_cb) def cancel_verify(self): self._cancellable.cancel() while not self._verify_completed: ctx.iteration(True) self.assertIsNone(self._verify_match) self.assertIsNotNone(self._verify_error) self.assertEqual(self.dev.get_finger_status(), FPrint.FingerStatusFlags.NONE) def complete_verify(self): while not self._verify_completed: ctx.iteration(True) if self._verify_error is not None: raise self._verify_error def check_verify(self, p, scan_nick, match, identify=False): if isinstance(scan_nick, str): self.send_command('SCAN', scan_nick) elif scan_nick is not None: self.send_auto(scan_nick) self.start_verify(p, identify) self.complete_verify() self.assertTrue(self._verify_reported) if not match: self.assertIsNone(self._verify_report_match) if identify: if match: self.assertIsNotNone(self._verify_report_match) self.assertIsNotNone(self._verify_match) else: if self._verify_fp: self.assertEqual(self._verify_fp.equal(p), match) if match: self.assertTrue( self._verify_fp.equal(self._verify_report_match)) else: self.assertFalse(match) if isinstance(scan_nick, str) and not self.dev.has_storage(): self.assertEqual(self._verify_fp.props.fpi_data.get_string(), scan_nick) class VirtualDevice(VirtualDeviceBase): def test_device_properties(self): self.assertEqual(self.dev.get_driver(), 'virtual_device') self.assertEqual(self.dev.get_device_id(), '0') self.assertEqual(self.dev.get_name(), 'Virtual device for debugging') self.assertTrue(self.dev.is_open()) self.assertEqual(self.dev.get_scan_type(), FPrint.ScanType.SWIPE) self.assertEqual(self.dev.get_nr_enroll_stages(), 5) self.assertFalse(self.dev.supports_identify()) self.assertFalse(self.dev.supports_capture()) self.assertFalse(self.dev.has_storage()) self.assertEqual(self.dev.props.driver, self.dev.get_driver()) self.assertEqual(self.dev.props.device_id, self.dev.get_device_id()) self.assertEqual(self.dev.props.name, self.dev.get_name()) self.assertEqual(self.dev.props.scan_type, self.dev.get_scan_type()) self.assertEqual(self.dev.props.nr_enroll_stages, self.dev.get_nr_enroll_stages()) self.assertEqual(self.dev.props.open, self.dev.is_open()) def test_device_features(self): self.assertFalse(self.dev.has_feature(FPrint.DeviceFeature.CAPTURE)) self.assertFalse(self.dev.has_feature(FPrint.DeviceFeature.IDENTIFY)) self.assertTrue(self.dev.has_feature(FPrint.DeviceFeature.VERIFY)) self.assertFalse(self.dev.has_feature(FPrint.DeviceFeature.DUPLICATES_CHECK)) self.assertFalse(self.dev.has_feature(FPrint.DeviceFeature.STORAGE)) self.assertFalse(self.dev.has_feature(FPrint.DeviceFeature.STORAGE_LIST)) self.assertFalse(self.dev.has_feature(FPrint.DeviceFeature.STORAGE_DELETE)) self.assertFalse(self.dev.has_feature(FPrint.DeviceFeature.STORAGE_CLEAR)) def test_open_error(self): self._close_on_teardown = False self.send_command('IGNORED_COMMAND') # This will be consumed by close self.send_error(FPrint.DeviceError.PROTO) # This will be consumed by open with GLibErrorMessage('libfprint-virtual_device', GLib.LogLevelFlags.LEVEL_WARNING, 'Could not process command: *'): self.dev.close_sync() with self.assertRaises(GLib.Error) as error: self.dev.open_sync() self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.PROTO)) def test_open_error_with_keep_alive(self): self._close_on_teardown = False self.set_keep_alive(True) self.dev.close_sync() self.send_error(FPrint.DeviceError.PROTO) with self.assertRaises(GLib.Error) as error: self.dev.open_sync() self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.PROTO)) def test_delayed_open(self): self.send_command('IGNORED_COMMAND') # This will be consumed by close self.send_sleep(500) # This will be consumed by open with GLibErrorMessage('libfprint-virtual_device', GLib.LogLevelFlags.LEVEL_WARNING, 'Could not process command: *'): self.dev.close_sync() opened = False def on_opened(dev, res): nonlocal opened dev.open_finish(res) opened = True self.dev.open(callback=on_opened) self.wait_timeout(10) self.assertFalse(self.dev.is_open()) self.wait_timeout(10) self.assertFalse(self.dev.is_open()) while not opened: ctx.iteration(True) def test_delayed_open_with_keep_alive(self): self.set_keep_alive(True) self.dev.close_sync() opened = False def on_opened(dev, res): nonlocal opened dev.open_finish(res) opened = True self.send_sleep(500) self.dev.open(callback=on_opened) self.wait_timeout(10) self.assertFalse(self.dev.is_open()) self.wait_timeout(10) self.assertFalse(self.dev.is_open()) while not opened: ctx.iteration(True) def test_close_while_opening(self): self.set_keep_alive(True) self.dev.close_sync() opened = False def on_opened(dev, res): nonlocal opened dev.open_finish(res) opened = True self.send_sleep(500) self.dev.open(callback=on_opened) self.wait_timeout(10) self.assertFalse(self.dev.is_open()) with self.assertRaises(GLib.Error) as error: self.dev.close_sync() self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.NOT_OPEN)) while not opened: ctx.iteration(True) def test_enroll(self): matching = self.enroll_print('testprint', FPrint.Finger.LEFT_LITTLE) self.assertEqual(matching.get_username(), 'testuser') self.assertEqual(matching.get_finger(), FPrint.Finger.LEFT_LITTLE) def test_enroll_with_retry(self): matching = self.enroll_print('testprint', FPrint.Finger.LEFT_LITTLE, retry_scan=2) self.assertEqual(matching.get_username(), 'testuser') self.assertEqual(matching.get_finger(), FPrint.Finger.LEFT_LITTLE) def test_enroll_verify_match(self): matching = self.enroll_print('testprint', FPrint.Finger.LEFT_THUMB) self.check_verify(matching, 'testprint', match=True, identify=self.dev.supports_identify()) def test_enroll_verify_no_match(self): matching = self.enroll_print('testprint', FPrint.Finger.LEFT_RING) self.check_verify(matching, 'not-testprint', match=False, identify=self.dev.supports_identify()) def test_enroll_verify_error(self): matching = self.enroll_print('testprint', FPrint.Finger.LEFT_RING) with self.assertRaises(GLib.Error) as error: self.check_verify(matching, FPrint.DeviceError.GENERAL, match=False, identify=self.dev.supports_identify()) self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.GENERAL)) def test_enroll_verify_retry(self): with self.assertRaises(GLib.GError) as error: self.check_verify(FPrint.Print.new(self.dev), FPrint.DeviceRetry.TOO_SHORT, match=False) self.assertTrue(error.exception.matches(FPrint.DeviceRetry.quark(), FPrint.DeviceRetry.TOO_SHORT)) def test_enroll_script_interactive(self): enrolled = None def done_cb(dev, res): nonlocal enrolled try: enrolled = dev.enroll_finish(res) except Exception as e: enrolled = e enroll_stage = 0 enroll_progress_error = None def progress_cb(dev, stage, pnt, data, error): nonlocal enroll_stage, enroll_progress_error enroll_stage = stage enroll_progress_error = error def wait_for_next_stage(expected): nonlocal enroll_stage, enroll_progress_error enroll_progress_error = None next_stage = enroll_stage + 1 while enroll_stage < next_stage and not enroll_progress_error: ctx.iteration(True) if isinstance(expected, FPrint.DeviceRetry): self.assertEqual(enroll_stage, next_stage - 1) self.assertEqual(enroll_progress_error.code, int(expected)) else: self.assertEqual(enroll_stage, expected) self.assertIsNone(enroll_progress_error) self.assertIsNone(enrolled) self.send_sleep(50) self.send_command('SCAN', 'print-id') self.send_command('SCAN', 'print-id') self.send_auto(FPrint.DeviceRetry.TOO_SHORT) self.send_command('SCAN', 'print-id') self.send_sleep(50) self.send_command('SCAN', 'print-id') self.send_auto(FPrint.DeviceRetry.CENTER_FINGER) self.send_command('SCAN', 'another-id') self.send_command('SCAN', 'print-id') self.dev.enroll(FPrint.Print.new(self.dev), callback=done_cb, progress_cb=progress_cb) wait_for_next_stage(1) wait_for_next_stage(2) wait_for_next_stage(FPrint.DeviceRetry.TOO_SHORT) wait_for_next_stage(3) wait_for_next_stage(4) wait_for_next_stage(FPrint.DeviceRetry.CENTER_FINGER) wait_for_next_stage(FPrint.DeviceRetry.GENERAL) wait_for_next_stage(5) while not enrolled: ctx.iteration(True) self.assertEqual(enrolled.get_driver(), self.dev.get_driver()) self.assertEqual(enrolled.props.fpi_data.unpack(), 'print-id') def test_enroll_script(self): self.send_command('SET_ENROLL_STAGES', 8) self.send_command('SCAN', 'print-id') self.send_command('SCAN', 'print-id') self.send_auto(FPrint.DeviceRetry.TOO_SHORT) self.send_command('SCAN', 'print-id') self.send_auto(FPrint.DeviceRetry.REMOVE_FINGER) self.send_command('SCAN', 'print-id') self.send_auto(FPrint.DeviceRetry.CENTER_FINGER) self.send_command('SCAN', 'print-id') self.send_sleep(10) self.send_sleep(20) self.send_auto(FPrint.DeviceRetry.GENERAL) self.send_auto(FPrint.DeviceRetry.REMOVE_FINGER) self.send_command('SCAN', 'print-id') self.send_command('SCAN', 'another-id') self.send_command('SCAN', 'print-id') self.send_command('SCAN', 'print-id') enrolled = self.dev.enroll_sync(FPrint.Print.new(self.dev)) self.assertEqual(enrolled.get_driver(), self.dev.get_driver()) self.assertEqual(enrolled.props.fpi_data.unpack(), 'print-id') return enrolled def test_enroll_verify_script(self): enrolled = self.test_enroll_script() self.send_auto(FPrint.DeviceRetry.CENTER_FINGER) with self.assertRaises(GLib.GError) as error: self.dev.verify_sync(enrolled) self.assertTrue(error.exception.matches(FPrint.DeviceRetry.quark(), FPrint.DeviceRetry.CENTER_FINGER)) self.send_sleep(50) self.send_auto(FPrint.DeviceRetry.TOO_SHORT) with self.assertRaises(GLib.GError) as error: self.dev.verify_sync(enrolled) self.assertTrue(error.exception.matches(FPrint.DeviceRetry.quark(), FPrint.DeviceRetry.TOO_SHORT)) self.send_command('SCAN', 'another-id') verify_match, verify_fp = self.dev.verify_sync(enrolled) self.assertFalse(verify_match) if self.dev.has_storage(): self.assertIsNone(verify_fp) else: self.assertFalse(verify_fp.equal(enrolled)) self.send_auto(enrolled) verify_match, verify_fp = self.dev.verify_sync(enrolled) self.assertTrue(verify_match) self.assertTrue(verify_fp.equal(enrolled)) def test_finger_status(self): self.start_verify(FPrint.Print.new(self.dev), identify=self.dev.supports_identify()) self.assertEqual(self.dev.get_finger_status(), FPrint.FingerStatusFlags.NEEDED) self.send_finger_report(True) self.assertEqual(self.dev.get_finger_status(), FPrint.FingerStatusFlags.NEEDED | FPrint.FingerStatusFlags.PRESENT) self.send_finger_report(False) self.assertEqual(self.dev.get_finger_status(), FPrint.FingerStatusFlags.NEEDED) self.cancel_verify() def test_finger_status_after_sleep(self): self.send_sleep(10) self.start_verify(FPrint.Print.new(self.dev), identify=self.dev.supports_identify()) self.assertEqual(self.dev.get_finger_status(), FPrint.FingerStatusFlags.NONE) while self.dev.get_finger_status() != FPrint.FingerStatusFlags.NEEDED: ctx.iteration(True) self.assertEqual(self.dev.get_finger_status(), FPrint.FingerStatusFlags.NEEDED) self.send_finger_report(True) self.assertEqual(self.dev.get_finger_status(), FPrint.FingerStatusFlags.NEEDED | FPrint.FingerStatusFlags.PRESENT) self.send_finger_report(False) self.assertEqual(self.dev.get_finger_status(), FPrint.FingerStatusFlags.NEEDED) self.cancel_verify() def test_change_enroll_stages(self): notified_spec = None def on_stage_changed(dev, spec): nonlocal notified_spec notified_spec = spec self.dev.connect('notify::nr-enroll-stages', on_stage_changed) notified_spec = None self.send_command('SET_ENROLL_STAGES', 20) self.assertEqual(self.dev.get_nr_enroll_stages(), 20) self.assertEqual(notified_spec.name, 'nr-enroll-stages') notified_spec = None self.send_command('SET_ENROLL_STAGES', 1) self.assertEqual(self.dev.get_nr_enroll_stages(), 1) self.assertEqual(notified_spec.name, 'nr-enroll-stages') with GLibErrorMessage('libfprint-device', GLib.LogLevelFlags.LEVEL_CRITICAL, '*enroll_stages > 0*'): notified_spec = None self.send_command('SET_ENROLL_STAGES', 0) self.assertEqual(self.dev.get_nr_enroll_stages(), 1) self.assertIsNone(notified_spec) def test_quick_enroll(self): self.send_command('SET_ENROLL_STAGES', 1) self.assertEqual(self.dev.get_nr_enroll_stages(), 1) matching = self.enroll_print('testprint', FPrint.Finger.LEFT_LITTLE) self.assertEqual(matching.get_username(), 'testuser') self.assertEqual(matching.get_finger(), FPrint.Finger.LEFT_LITTLE) def test_change_scan_type(self): notified_spec = None def on_scan_type_changed(dev, spec): nonlocal notified_spec notified_spec = spec self.dev.connect('notify::scan-type', on_scan_type_changed) for scan_type in [FPrint.ScanType.PRESS, FPrint.ScanType.SWIPE]: notified_spec = None self.send_auto(scan_type) self.assertEqual(self.dev.get_scan_type(), scan_type) self.assertEqual(notified_spec.name, 'scan-type') with GLibErrorMessage('libfprint-virtual_device', GLib.LogLevelFlags.LEVEL_WARNING, '*Scan type*not found'): notified_spec = None self.send_command('SET_SCAN_TYPE', 'eye-contact') self.assertEqual(self.dev.get_scan_type(), FPrint.ScanType.SWIPE) self.assertIsNone(notified_spec) def test_device_unplug(self): self._close_on_teardown = False notified_spec = None def on_removed_notify(dev, spec): nonlocal notified_spec notified_spec = spec removed = False def on_removed(dev): nonlocal removed removed = True self.assertFalse(self.dev.props.removed) self.dev.connect('notify::removed', on_removed_notify) self.dev.connect('removed', on_removed) self.send_command('UNPLUG') self.assertEqual(notified_spec.name, 'removed') self.assertTrue(self.dev.props.removed) self.assertTrue(removed) with self.assertRaises(GLib.GError) as error: self.dev.close_sync() self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.REMOVED)) def test_device_unplug_during_verify(self): self._close_on_teardown = False notified_spec = None def on_removed_notify(dev, spec): nonlocal notified_spec notified_spec = spec removed = False def on_removed(dev): nonlocal removed removed = True self.assertFalse(self.dev.props.removed) self.dev.connect('notify::removed', on_removed_notify) self.dev.connect('removed', on_removed) self.start_verify(FPrint.Print.new(self.dev), identify=self.dev.supports_identify()) self.send_command('UNPLUG') self.assertEqual(notified_spec.name, 'removed') self.assertTrue(self.dev.props.removed) self.assertFalse(removed) with self.assertRaises(GLib.GError) as error: self.complete_verify() self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.REMOVED)) self.assertTrue(removed) with self.assertRaises(GLib.GError) as error: self.dev.close_sync() self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.REMOVED)) def test_device_sleep(self): self.send_sleep(1500) self.start_verify(FPrint.Print.new(self.dev), identify=self.dev.supports_identify()) self.wait_timeout(300) self.assertFalse(self._verify_completed) self._cancellable.cancel() self.wait_timeout(200) self.assertTrue(self._verify_completed) self.cancel_verify() def test_device_sleep_on_cancellation(self): self.send_command('SET_CANCELLATION_ENABLED', int(False)) self.send_sleep(1500) self.send_command('SCAN', 'foo-print') self.start_verify(FPrint.Print.new(self.dev), identify=self.dev.supports_identify()) self.wait_timeout(300) self.assertFalse(self._verify_completed) self._cancellable.cancel() self.wait_timeout(300) self.assertFalse(self._verify_completed) self.cancel_verify() # Since we don't really cancel here, next command will be passed to release self._close_on_teardown = False with GLibErrorMessage('libfprint-virtual_device', GLib.LogLevelFlags.LEVEL_WARNING, 'Could not process command: SCAN *'): self.dev.close_sync() def test_device_sleep_before_completing_verify(self): enrolled = self.enroll_print('foo-print', FPrint.Finger.LEFT_RING) self.send_sleep(100) self.start_verify(enrolled, identify=self.dev.supports_identify()) self.send_command('SCAN', 'bar-print') self.send_sleep(800) while not self._verify_reported: ctx.iteration(False) self.assertFalse(self._verify_completed) self.wait_timeout(10) self.assertFalse(self._verify_completed) self.complete_verify() self.assertTrue(self._verify_reported) def test_close_error(self): self._close_on_teardown = False close_res = None def on_closed(dev, res): nonlocal close_res try: close_res = dev.close_finish(res) except GLib.Error as e: close_res = e self.send_sleep(100) self.send_error(FPrint.DeviceError.BUSY) self.dev.close(callback=on_closed) self.wait_timeout(2) self.assertIsNone(close_res) while not close_res: ctx.iteration(True) self.assertEqual(close_res.code, int(FPrint.DeviceError.BUSY)) def test_identify_unsupported(self): if self.dev.supports_identify(): self.skipTest('Device supports identification') with self.assertRaises(GLib.Error) as error: self.dev.identify_sync([FPrint.Print.new(self.dev)]) self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.NOT_SUPPORTED)) def test_capture_unsupported(self): with self.assertRaises(GLib.Error) as error: self.dev.capture_sync(wait_for_finger=False) self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.NOT_SUPPORTED)) class VirtualDeviceClosed(VirtualDeviceBase): driver_name = 'virtual_device' def setUp(self): super().setUp() self._close_on_teardown = False self.dev.close_sync() self.assertFalse(self.dev.is_open()) def test_close(self): with self.assertRaises(GLib.Error) as error: self.dev.close_sync() self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.NOT_OPEN)) def test_enroll(self): with self.assertRaises(GLib.Error) as error: self.dev.enroll_sync(FPrint.Print.new(self.dev)) self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.NOT_OPEN)) def test_verify(self): with self.assertRaises(GLib.Error) as error: self.dev.verify_sync(FPrint.Print.new(self.dev)) self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.NOT_OPEN)) def test_identify(self): with self.assertRaises(GLib.Error) as error: self.dev.identify_sync([FPrint.Print.new(self.dev)]) self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.NOT_OPEN)) def test_capture(self): with self.assertRaises(GLib.Error) as error: self.dev.capture_sync(wait_for_finger=False) self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.NOT_OPEN)) def test_delete_print(self): with self.assertRaises(GLib.Error) as error: self.dev.delete_print_sync(FPrint.Print.new(self.dev)) self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.NOT_OPEN)) def test_list_prints(self): with self.assertRaises(GLib.Error) as error: self.dev.list_prints_sync() self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.NOT_OPEN)) class VirtualDeviceBusyDeviceOperations(VirtualDeviceBase): driver_name = 'virtual_device' def setUp(self): super().setUp() self._close_on_teardown = False self.send_sleep(200) self.dev.close() def tearDown(self): while self.dev.is_open(): ctx.iteration(True) super().tearDown() def test_open(self): self.set_keep_alive(True) while self.dev.is_open(): ctx.iteration(True) self.assertFalse(self.dev.is_open()) self.send_sleep(100) self.dev.open() with self.assertRaises(GLib.Error) as error: self.dev.open_sync() self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.BUSY)) self.assertFalse(self.dev.is_open()) while not self.dev.is_open(): ctx.iteration(True) self.dev.close_sync() def test_close(self): with self.assertRaises(GLib.Error) as error: self.dev.close_sync() self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.BUSY)) def test_enroll(self): with self.assertRaises(GLib.Error) as error: self.dev.enroll_sync(FPrint.Print.new(self.dev)) self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.BUSY)) def test_verify(self): with self.assertRaises(GLib.Error) as error: self.dev.verify_sync(FPrint.Print.new(self.dev)) self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.BUSY)) def test_identify(self): with self.assertRaises(GLib.Error) as error: self.dev.identify_sync([FPrint.Print.new(self.dev)]) self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.BUSY)) def test_capture(self): with self.assertRaises(GLib.Error) as error: self.dev.capture_sync(wait_for_finger=False) self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.BUSY)) def test_delete_print(self): with self.assertRaises(GLib.Error) as error: self.dev.delete_print_sync(FPrint.Print.new(self.dev)) self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.BUSY)) def test_list_prints(self): with self.assertRaises(GLib.Error) as error: self.dev.list_prints_sync() self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.BUSY)) class VirtualDeviceStorage(VirtualDevice): def tearDown(self): self.cleanup_device_storage() super().tearDown() def cleanup_device_storage(self): if self.dev.is_open() and not self.dev.props.removed: self.send_command('CONT') self.dev.clear_storage_sync() def test_device_properties(self): self.assertEqual(self.dev.get_driver(), 'virtual_device_storage') self.assertEqual(self.dev.get_device_id(), '0') self.assertEqual(self.dev.get_name(), 'Virtual device with storage and identification for debugging') self.assertTrue(self.dev.is_open()) self.assertEqual(self.dev.get_scan_type(), FPrint.ScanType.SWIPE) self.assertEqual(self.dev.get_nr_enroll_stages(), 5) self.assertTrue(self.dev.supports_identify()) self.assertFalse(self.dev.supports_capture()) self.assertTrue(self.dev.has_storage()) def test_device_features(self): self.assertFalse(self.dev.has_feature(FPrint.DeviceFeature.CAPTURE)) self.assertTrue(self.dev.has_feature(FPrint.DeviceFeature.IDENTIFY)) self.assertTrue(self.dev.has_feature(FPrint.DeviceFeature.VERIFY)) self.assertTrue(self.dev.has_feature(FPrint.DeviceFeature.DUPLICATES_CHECK)) self.assertTrue(self.dev.has_feature(FPrint.DeviceFeature.STORAGE)) self.assertTrue(self.dev.has_feature(FPrint.DeviceFeature.STORAGE_LIST)) self.assertTrue(self.dev.has_feature(FPrint.DeviceFeature.STORAGE_DELETE)) self.assertTrue(self.dev.has_feature(FPrint.DeviceFeature.STORAGE_CLEAR)) def test_duplicate_enroll(self): self.enroll_print('testprint', FPrint.Finger.LEFT_LITTLE) with self.assertRaises(GLib.Error) as error: self.enroll_print('testprint', FPrint.Finger.LEFT_LITTLE) self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.DATA_DUPLICATE)) def test_list_empty(self): self.assertFalse(self.dev.list_prints_sync()) def test_list_populated(self): self.send_command('INSERT', 'p1') print2 = self.enroll_print('p2', FPrint.Finger.LEFT_LITTLE) self.assertEqual({'p1', 'p2'}, {p.props.fpi_data.get_string() for p in self.dev.list_prints_sync()}) def test_list_delete(self): p = self.enroll_print('testprint', FPrint.Finger.RIGHT_THUMB) l = self.dev.list_prints_sync() print(l[0]) self.assertEqual(len(l), 1) print('blub', p.props.fpi_data, type(l[0].props.fpi_data)) assert p.equal(l[0]) self.dev.delete_print_sync(p) self.assertFalse(self.dev.list_prints_sync()) def test_delete_error(self): deleted_res = None def on_deleted(dev, res): nonlocal deleted_res try: deleted_res = dev.delete_print_finish(res) except GLib.Error as e: deleted_res = e self.send_sleep(100) self.send_error(FPrint.DeviceError.DATA_NOT_FOUND) self.dev.delete_print(FPrint.Print.new(self.dev), callback=on_deleted) self.wait_timeout(2) self.assertIsNone(deleted_res) while not deleted_res: ctx.iteration(True) self.assertEqual(deleted_res.code, int(FPrint.DeviceError.DATA_NOT_FOUND)) def test_list_error(self): list_res = None def on_listed(dev, res): nonlocal list_res try: list_res = dev.list_prints_finish(res) except GLib.Error as e: list_res = e self.send_sleep(100) self.send_error(FPrint.DeviceError.BUSY) self.dev.list_prints(callback=on_listed) self.wait_timeout(2) self.assertIsNone(list_res) while not list_res: ctx.iteration(True) self.assertEqual(list_res.code, int(FPrint.DeviceError.BUSY)) def test_list_delete_missing(self): p = self.enroll_print('testprint', FPrint.Finger.RIGHT_THUMB) self.send_command('REMOVE', 'testprint') with self.assertRaises(GLib.Error) as error: self.dev.delete_print_sync(p) self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.DATA_NOT_FOUND)) def test_clear_storage(self): self.send_command('INSERT', 'p1') l = self.dev.list_prints_sync() print(l[0]) self.assertEqual(len(l), 1) self.send_command('CONT') self.dev.clear_storage_sync() self.assertFalse(self.dev.list_prints_sync()) def test_clear_storage_error(self): self.send_command('INSERT', 'p1') l = self.dev.list_prints_sync() print(l[0]) self.assertEqual(len(l), 1) self.send_error(FPrint.DeviceError.PROTO) with self.assertRaises(GLib.Error) as error: self.dev.clear_storage_sync() self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.PROTO)) def test_identify_match(self): rt = self.enroll_print('right-thumb', FPrint.Finger.RIGHT_THUMB) lt = self.enroll_print('left-thumb', FPrint.Finger.LEFT_THUMB) self.check_verify([rt, lt], 'right-thumb', identify=True, match=True) self.check_verify([rt, lt], 'left-thumb', identify=True, match=True) def test_identify_no_match(self): rt = self.enroll_print('right-thumb', FPrint.Finger.RIGHT_THUMB) lt = self.enroll_print('left-thumb', FPrint.Finger.LEFT_THUMB) self.check_verify(lt, 'right-thumb', identify=True, match=False) self.check_verify(rt, 'left-thumb', identify=True, match=False) def test_identify_retry(self): with self.assertRaises(GLib.GError) as error: self.check_verify(FPrint.Print.new(self.dev), FPrint.DeviceRetry.TOO_SHORT, identify=True, match=False) self.assertTrue(error.exception.matches(FPrint.DeviceRetry.quark(), FPrint.DeviceRetry.TOO_SHORT)) def test_delete_multiple_times(self): rt = self.enroll_print('right-thumb', FPrint.Finger.RIGHT_THUMB) self.dev.delete_print_sync(rt) with self.assertRaises(GLib.Error) as error: self.dev.delete_print_sync(rt) self.assertTrue(error.exception.matches(FPrint.DeviceError.quark(), FPrint.DeviceError.DATA_NOT_FOUND)) def test_verify_missing_print(self): self.check_verify(FPrint.Print.new(self.dev), 'not-existing-print', False, identify=False) def test_identify_missing_print(self): self.check_verify(FPrint.Print.new(self.dev), 'not-existing-print', False, identify=True) if __name__ == '__main__': try: gi.require_version('FPrint', '2.0') from gi.repository import FPrint except Exception as e: print("Missing dependencies: %s" % str(e)) sys.exit(77) # avoid writing to stderr unittest.main(testRunner=unittest.TextTestRunner(stream=sys.stdout, verbosity=2))