libfprint/tests/virtual-image.py
Marco Trevisan (Treviño) ef805f2341 device: Expose supported features publicly as FpDeviceFeature
It can be convenient for device users to check what it supports, without
having multiple functions to check each single feature.

So expose this and add tests.
2021-04-12 22:14:06 +02:00

392 lines
14 KiB
Python
Executable file

#!/usr/bin/env python3
import sys
try:
import gi
import os
from gi.repository import GLib, Gio
import unittest
import socket
import struct
import subprocess
import shutil
import glob
import cairo
import tempfile
except Exception as e:
print("Missing dependencies: %s" % str(e))
sys.exit(77)
FPrint = None
# Re-run the test with the passed wrapper if set
wrapper = os.getenv('LIBFPRINT_TEST_WRAPPER')
if wrapper:
wrap_cmd = wrapper.split(' ') + [sys.executable, os.path.abspath(__file__)] + \
sys.argv[1:]
os.unsetenv('LIBFPRINT_TEST_WRAPPER')
sys.exit(subprocess.check_call(wrap_cmd))
def load_image(img):
png = cairo.ImageSurface.create_from_png(img)
# Cairo wants 4 byte aligned rows, so just add a few pixel if necessary
w = png.get_width()
h = png.get_height()
w = (w + 3) // 4 * 4
h = (h + 3) // 4 * 4
img = cairo.ImageSurface(cairo.Format.A8, w, h)
cr = cairo.Context(img)
cr.set_source_rgba(1, 1, 1, 1)
cr.paint()
cr.set_source_rgba(0, 0, 0, 0)
cr.set_operator(cairo.OPERATOR_SOURCE)
cr.set_source_surface(png)
cr.paint()
return img
if hasattr(os.environ, 'MESON_SOURCE_ROOT'):
root = os.environ['MESON_SOURCE_ROOT']
else:
root = os.path.join(os.path.dirname(__file__), '..')
imgdir = os.path.join(root, 'examples', 'prints')
ctx = GLib.main_context_default()
class VirtualImage(unittest.TestCase):
@classmethod
def setUpClass(cls):
cls.tmpdir = tempfile.mkdtemp(prefix='libfprint-')
cls.sockaddr = os.path.join(cls.tmpdir, 'virtual-image.socket')
os.environ['FP_VIRTUAL_IMAGE'] = cls.sockaddr
cls.ctx = FPrint.Context()
cls.dev = None
for dev in cls.ctx.get_devices():
# We might have a USB device in the test system that needs skipping
if dev.get_driver() == 'virtual_image':
cls.dev = dev
break
assert cls.dev is not None, "You need to compile with virtual_image for testing"
cls.prints = {}
for f in glob.glob(os.path.join(imgdir, '*.png')):
n = os.path.basename(f)[:-4]
cls.prints[n] = load_image(f)
@classmethod
def tearDownClass(cls):
shutil.rmtree(cls.tmpdir)
del cls.dev
del cls.ctx
def setUp(self):
self.dev.open_sync()
self.con = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)
self.con.connect(self.sockaddr)
def tearDown(self):
self.con.close()
del self.con
self.dev.close_sync()
def send_retry(self, retry_error=None, iterate=True):
retry_error = retry_error if retry_error else FPrint.DeviceRetry.TOO_SHORT
self.con.sendall(struct.pack('ii', -1, retry_error))
while iterate and ctx.pending():
ctx.iteration(False)
def send_error(self, device_error=None, iterate=True):
device_error = device_error if device_error else FPrint.DeviceError.GENERAL
self.con.sendall(struct.pack('ii', -2, device_error))
while iterate and ctx.pending():
ctx.iteration(False)
def send_finger_automatic(self, automatic, iterate=True):
# Set whether finger on/off is reported around images
self.con.sendall(struct.pack('ii', -3, 1 if automatic else 0))
while iterate and ctx.pending():
ctx.iteration(False)
def send_finger_report(self, has_finger, iterate=True):
# Send finger on/off
self.con.sendall(struct.pack('ii', -4, 1 if has_finger else 0))
while iterate and ctx.pending():
ctx.iteration(False)
def send_image(self, image, iterate=True):
img = self.prints[image]
mem = img.get_data()
mem = mem.tobytes()
assert len(mem) == img.get_width() * img.get_height()
encoded_img = struct.pack('ii', img.get_width(), img.get_height())
encoded_img += mem
self.con.sendall(encoded_img)
while iterate and ctx.pending():
ctx.iteration(False)
def test_features(self):
self.assertTrue(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.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))
self.assertEqual(self.dev.get_features(),
FPrint.DeviceFeature.CAPTURE |
FPrint.DeviceFeature.IDENTIFY |
FPrint.DeviceFeature.VERIFY)
def test_capture_prevents_close(self):
cancel = Gio.Cancellable()
def cancelled_cb(dev, res, obj):
print("Capture operation finished")
with self.assertRaises(GLib.GError) as cm:
dev.capture_finish(res)
assert cm.exception.matches(Gio.io_error_quark(), Gio.IOErrorEnum.CANCELLED)
print("Capture cancelled as expected")
obj._cancelled = True
self._cancelled = False
self.dev.capture(True, cancel, cancelled_cb, self)
with self.assertRaises(GLib.GError) as cm:
self.dev.close_sync()
assert cm.exception.matches(FPrint.device_error_quark(), FPrint.DeviceError.BUSY)
cancel.cancel()
while not self._cancelled:
ctx.iteration(True)
def enroll_print(self, image):
self._step = 0
self._enrolled = None
def progress_cb(dev, step, fp, user_data):
print('Print was processed, continuing')
self._step = step
def done_cb(dev, res):
print("Enroll done")
fp = dev.enroll_finish(res)
self.assertEqual(self.dev.get_finger_status(), FPrint.FingerStatusFlags.NONE)
self._enrolled = fp
template = FPrint.Print.new(self.dev)
template.props.finger = FPrint.Finger.LEFT_THUMB
template.props.username = "testuser"
template.props.description = "test print"
datetime = GLib.DateTime.new_now_local()
date = GLib.Date()
date.set_dmy(*datetime.get_ymd()[::-1])
template.props.enroll_date = date
self.assertEqual(self.dev.get_finger_status(), FPrint.FingerStatusFlags.NONE)
self.dev.enroll(template, None, progress_cb, tuple(), done_cb)
# Note: Assumes 5 enroll steps for this device!
self.send_image(image)
while self._step < 1:
ctx.iteration(True)
# Test the image-device path where the finger is removed after
# the minutiae scan is completed.
self.send_finger_automatic(False)
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_image(image)
while self._step < 2:
ctx.iteration(True)
self.send_finger_report(False)
self.assertEqual(self.dev.get_finger_status(), FPrint.FingerStatusFlags.NEEDED)
self.send_finger_automatic(True)
self.send_image(image)
while self._step < 3:
ctx.iteration(True)
self.assertEqual(self.dev.get_finger_status(), FPrint.FingerStatusFlags.NEEDED)
self.send_image(image)
while self._step < 4:
ctx.iteration(True)
self.assertEqual(self.dev.get_finger_status(), FPrint.FingerStatusFlags.NEEDED)
self.send_image(image)
while self._enrolled is None:
ctx.iteration(True)
self.assertEqual(self.dev.get_finger_status(), FPrint.FingerStatusFlags.NONE)
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.assertIsNone(self._enrolled.get_image())
return self._enrolled
def test_enroll_verify(self):
done = False
def verify_cb(dev, res):
try:
self._verify_match, self._verify_fp = dev.verify_finish(res)
except gi.repository.GLib.Error as e:
self._verify_error = e
fp_whorl = self.enroll_print('whorl')
self._verify_match = None
self._verify_fp = None
self.dev.verify(fp_whorl, callback=verify_cb)
self.send_image('whorl')
while self._verify_match is None:
ctx.iteration(True)
assert(self._verify_match)
self.assertIsNotNone(self._verify_fp.props.image)
self._verify_match = None
self._verify_fp = None
self.dev.verify(fp_whorl, callback=verify_cb)
self.send_image('tented_arch')
while self._verify_match is None:
ctx.iteration(True)
assert(not self._verify_match)
# Test verify error cases
self._verify_fp = None
self._verify_error = None
self.dev.verify(fp_whorl, callback=verify_cb)
self.send_retry()
while self._verify_fp is None and self._verify_error is None:
ctx.iteration(True)
assert(self._verify_error is not None)
assert(self._verify_error.matches(FPrint.device_retry_quark(), FPrint.DeviceRetry.TOO_SHORT))
self._verify_fp = None
self._verify_error = None
self.dev.verify(fp_whorl, callback=verify_cb)
self.send_error()
while self._verify_fp is None and self._verify_error is None:
ctx.iteration(True)
assert(self._verify_error is not None)
print(self._verify_error)
assert(self._verify_error.matches(FPrint.device_error_quark(), FPrint.DeviceError.GENERAL))
def test_identify(self):
done = False
fp_whorl = self.enroll_print('whorl')
fp_tented_arch = self.enroll_print('tented_arch')
def identify_cb(dev, res):
print('Identify finished')
try:
self._identify_match, self._identify_fp = self.dev.identify_finish(res)
except gi.repository.GLib.Error as e:
print(e)
self._identify_error = e
self._identify_fp = None
self.dev.identify([fp_whorl, fp_tented_arch], callback=identify_cb)
self.send_image('tented_arch')
while self._identify_fp is None:
ctx.iteration(True)
assert(self._identify_match is fp_tented_arch)
self._identify_fp = None
self.dev.identify([fp_whorl, fp_tented_arch], callback=identify_cb)
self.send_image('whorl')
while self._identify_fp is None:
ctx.iteration(True)
assert(self._identify_match is fp_whorl)
# Test error cases
self._identify_fp = None
self._identify_error = None
self.dev.identify([fp_whorl, fp_tented_arch], callback=identify_cb)
self.send_retry()
while self._identify_fp is None and self._identify_error is None:
ctx.iteration(True)
assert(self._identify_error is not None)
assert(self._identify_error.matches(FPrint.device_retry_quark(), FPrint.DeviceRetry.TOO_SHORT))
self._identify_fp = None
self._identify_error = None
self.dev.identify([fp_whorl, fp_tented_arch], callback=identify_cb)
self.send_error()
while self._identify_fp is None and self._identify_error is None:
ctx.iteration(True)
assert(self._identify_error is not None)
assert(self._identify_error.matches(FPrint.device_error_quark(), FPrint.DeviceError.GENERAL))
def test_verify_serialized(self):
done = False
def verify_cb(dev, res):
r, fp = dev.verify_finish(res)
self._verify_match = r
self._verify_fp = fp
fp_whorl = self.enroll_print('whorl')
fp_data = fp_whorl.serialize()
fp_whorl_new = FPrint.Print.deserialize(fp_data)
# The serialized/deserialized prints need to be equal
assert fp_whorl.equal(fp_whorl_new)
datetime = GLib.DateTime.new_now_local()
date = GLib.Date()
date.set_dmy(*datetime.get_ymd()[::-1])
assert fp_whorl_new.props.username == "testuser"
assert fp_whorl_new.props.description == "test print"
assert fp_whorl_new.props.finger == FPrint.Finger.LEFT_THUMB
assert date.compare(fp_whorl_new.props.enroll_date) == 0
self._verify_match = None
self._verify_fp = None
self.dev.verify(fp_whorl_new, callback=verify_cb)
self.send_image('whorl')
while self._verify_match is None:
ctx.iteration(True)
assert(self._verify_match)
self._verify_match = None
self._verify_fp = None
self.dev.verify(fp_whorl_new, callback=verify_cb)
self.send_image('tented_arch')
while self._verify_match is None:
ctx.iteration(True)
assert(not self._verify_match)
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))