libfprint/tests/test-device-fake.c

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/*
* Virtual driver for device debugging
*
* Copyright (C) 2019 Marco Trevisan <marco.trevisan@canonical.com>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#define FP_COMPONENT "fake_test_dev"
#include "test-device-fake.h"
G_DEFINE_TYPE (FpiDeviceFake, fpi_device_fake, FP_TYPE_DEVICE)
static const FpIdEntry driver_ids[] = {
{ .virtual_envvar = "FP_VIRTUAL_FAKE_DEVICE" },
{ .virtual_envvar = NULL }
};
static void
fpi_device_fake_probe (FpDevice *device)
{
FpDeviceClass *dev_class = FP_DEVICE_GET_CLASS (device);
FpiDeviceFake *fake_dev = FPI_DEVICE_FAKE (device);
fake_dev->last_called_function = fpi_device_fake_probe;
g_assert_cmpuint (fpi_device_get_current_action (device), ==, FPI_DEVICE_ACTION_PROBE);
if (fake_dev->return_action_error)
{
fpi_device_action_error (device, fake_dev->ret_error);
return;
}
fpi_device_probe_complete (device, dev_class->id, dev_class->full_name,
fake_dev->ret_error);
}
static void
fpi_device_fake_open (FpDevice *device)
{
FpiDeviceFake *fake_dev = FPI_DEVICE_FAKE (device);
fake_dev->last_called_function = fpi_device_fake_open;
g_assert_cmpuint (fpi_device_get_current_action (device), ==, FPI_DEVICE_ACTION_OPEN);
if (fake_dev->return_action_error)
{
fpi_device_action_error (device, fake_dev->ret_error);
return;
}
fpi_device_open_complete (device, fake_dev->ret_error);
}
static void
fpi_device_fake_close (FpDevice *device)
{
FpiDeviceFake *fake_dev = FPI_DEVICE_FAKE (device);
fake_dev->last_called_function = fpi_device_fake_close;
g_assert_cmpuint (fpi_device_get_current_action (device), ==, FPI_DEVICE_ACTION_CLOSE);
if (fake_dev->return_action_error)
{
fpi_device_action_error (device, fake_dev->ret_error);
return;
}
fpi_device_close_complete (device, fake_dev->ret_error);
}
static void
fpi_device_fake_enroll (FpDevice *device)
{
FpiDeviceFake *fake_dev = FPI_DEVICE_FAKE (device);
FpPrint *print = fake_dev->ret_print;
fake_dev->last_called_function = fpi_device_fake_enroll;
g_assert_cmpuint (fpi_device_get_current_action (device), ==, FPI_DEVICE_ACTION_ENROLL);
if (fake_dev->return_action_error)
{
fpi_device_action_error (device, fake_dev->ret_error);
return;
}
fpi_device_get_enroll_data (device, (FpPrint **) &fake_dev->action_data);
if (!print && !fake_dev->ret_error)
{
fpi_device_get_enroll_data (device, &print);
fpi_print_set_type (print, FPI_PRINT_RAW);
}
fpi_device_enroll_complete (device,
print ? g_object_ref (print) : NULL,
fake_dev->ret_error);
}
static void
fpi_device_fake_verify (FpDevice *device)
{
FpiDeviceFake *fake_dev = FPI_DEVICE_FAKE (device);
FpPrint *print = fake_dev->ret_print;
fake_dev->last_called_function = fpi_device_fake_verify;
g_assert_cmpuint (fpi_device_get_current_action (device), ==, FPI_DEVICE_ACTION_VERIFY);
if (fake_dev->return_action_error)
{
fpi_device_action_error (device, fake_dev->ret_error);
return;
}
fpi_device_get_verify_data (device, (FpPrint **) &fake_dev->action_data);
if (!print && !fake_dev->ret_error)
fpi_device_get_verify_data (device, &print);
if (!fake_dev->ret_error || fake_dev->ret_error->domain == FP_DEVICE_RETRY)
{
fpi_device_verify_report (device, fake_dev->ret_result, print, fake_dev->ret_error);
fpi_device_verify_complete (device, NULL);
}
else
{
fpi_device_verify_complete (device, fake_dev->ret_error);
}
}
static void
fpi_device_fake_identify (FpDevice *device)
{
FpiDeviceFake *fake_dev = FPI_DEVICE_FAKE (device);
FpPrint *match = fake_dev->ret_match;
fake_dev->last_called_function = fpi_device_fake_identify;
g_assert_cmpuint (fpi_device_get_current_action (device), ==, FPI_DEVICE_ACTION_IDENTIFY);
if (fake_dev->return_action_error)
{
fpi_device_action_error (device, fake_dev->ret_error);
return;
}
fpi_device_get_identify_data (device, (GPtrArray **) &fake_dev->action_data);
if (!match && !fake_dev->ret_error)
{
GPtrArray *prints;
unsigned int i;
fpi_device_get_identify_data (device, &prints);
for (i = 0; prints && i < prints->len; ++i)
{
FpPrint *print = g_ptr_array_index (prints, i);
if (g_strcmp0 (fp_print_get_description (print), "fake-verified") == 0)
{
match = print;
break;
}
}
}
if (!fake_dev->ret_error || fake_dev->ret_error->domain == FP_DEVICE_RETRY)
{
fpi_device_identify_report (device, match, fake_dev->ret_print, fake_dev->ret_error);
fpi_device_identify_complete (device, NULL);
}
else
{
fpi_device_identify_complete (device, fake_dev->ret_error);
}
}
static void
fpi_device_fake_capture (FpDevice *device)
{
FpiDeviceFake *fake_dev = FPI_DEVICE_FAKE (device);
gboolean wait_for_finger;
fake_dev->last_called_function = fpi_device_fake_capture;
g_assert_cmpuint (fpi_device_get_current_action (device), ==, FPI_DEVICE_ACTION_CAPTURE);
if (fake_dev->return_action_error)
{
fpi_device_action_error (device, fake_dev->ret_error);
return;
}
fpi_device_get_capture_data (device, &wait_for_finger);
fake_dev->action_data = GINT_TO_POINTER (wait_for_finger);
fpi_device_capture_complete (device, fake_dev->ret_image, fake_dev->ret_error);
}
static void
fpi_device_fake_list (FpDevice *device)
{
FpiDeviceFake *fake_dev = FPI_DEVICE_FAKE (device);
fake_dev->last_called_function = fpi_device_fake_list;
g_assert_cmpuint (fpi_device_get_current_action (device), ==, FPI_DEVICE_ACTION_LIST);
if (fake_dev->return_action_error)
{
fpi_device_action_error (device, fake_dev->ret_error);
return;
}
fpi_device_list_complete (device, fake_dev->ret_list, fake_dev->ret_error);
}
static void
fpi_device_fake_delete (FpDevice *device)
{
FpiDeviceFake *fake_dev = FPI_DEVICE_FAKE (device);
fake_dev->last_called_function = fpi_device_fake_delete;
g_assert_cmpuint (fpi_device_get_current_action (device), ==, FPI_DEVICE_ACTION_DELETE);
if (fake_dev->return_action_error)
{
fpi_device_action_error (device, fake_dev->ret_error);
return;
}
fpi_device_get_delete_data (device, (FpPrint **) (&fake_dev->action_data));
fpi_device_delete_complete (device, fake_dev->ret_error);
}
static void
fpi_device_fake_cancel (FpDevice *device)
{
FpiDeviceFake *fake_dev = FPI_DEVICE_FAKE (device);
fake_dev->last_called_function = fpi_device_fake_cancel;
g_assert_cmpuint (fpi_device_get_current_action (device), !=, FPI_DEVICE_ACTION_NONE);
}
static void
fpi_device_fake_init (FpiDeviceFake *self)
{
}
static void
fpi_device_fake_class_init (FpiDeviceFakeClass *klass)
{
FpDeviceClass *dev_class = FP_DEVICE_CLASS (klass);
dev_class->id = FP_COMPONENT;
dev_class->full_name = "Virtual device for debugging";
dev_class->type = FP_DEVICE_TYPE_VIRTUAL;
dev_class->id_table = driver_ids;
dev_class->nr_enroll_stages = 5;
dev_class->scan_type = FP_SCAN_TYPE_PRESS;
dev_class->probe = fpi_device_fake_probe;
dev_class->open = fpi_device_fake_open;
dev_class->close = fpi_device_fake_close;
dev_class->enroll = fpi_device_fake_enroll;
dev_class->verify = fpi_device_fake_verify;
dev_class->identify = fpi_device_fake_identify;
dev_class->capture = fpi_device_fake_capture;
dev_class->list = fpi_device_fake_list;
dev_class->delete = fpi_device_fake_delete;
dev_class->cancel = fpi_device_fake_cancel;
fpi_device_class_auto_initialize_features (dev_class);
}