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libfprint/libfprint/drivers/virtual-image.c
Benjamin Berg cb56ddba5b virtual-image: Open window for race during deactivation 
This is in order to test corner cases in fprintd.
2020-10-01 14:16:22 +02:00

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/*
* Virtual driver for image device debugging
*
* Copyright (C) 2019 Benjamin Berg <bberg@redhat.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
*/
/*
* This is a virtual driver to debug the image based drivers. A small
* python script is provided to connect to it via a socket, allowing
* prints to be sent to this device programmatically.
* Using this it is possible to test libfprint and fprintd.
*/
#define FP_COMPONENT "virtual_image"
#include "fpi-log.h"
#include "../fpi-image.h"
#include "../fpi-image-device.h"
#include <glib/gstdio.h>
#include <gio/gio.h>
#include <gio/gunixsocketaddress.h>
struct _FpDeviceVirtualImage
{
FpImageDevice parent;
GSocketListener *listener;
GSocketConnection *connection;
GCancellable *cancellable;
gint socket_fd;
gint client_fd;
gboolean automatic_finger;
FpImage *recv_img;
gint recv_img_hdr[2];
};
G_DECLARE_FINAL_TYPE (FpDeviceVirtualImage, fpi_device_virtual_image, FPI, DEVICE_VIRTUAL_IMAGE, FpImageDevice)
G_DEFINE_TYPE (FpDeviceVirtualImage, fpi_device_virtual_image, FP_TYPE_IMAGE_DEVICE)
static void start_listen (FpDeviceVirtualImage *dev);
static void recv_image (FpDeviceVirtualImage *dev,
GInputStream *stream);
static void
recv_image_img_recv_cb (GObject *source_object,
GAsyncResult *res,
gpointer user_data)
{
g_autoptr(GError) error = NULL;
FpDeviceVirtualImage *self;
FpImageDevice *device;
gboolean success;
gsize bytes = 0;
success = g_input_stream_read_all_finish (G_INPUT_STREAM (source_object), res, &bytes, &error);
if (!success || bytes == 0)
{
if (!success)
{
if (g_error_matches (error, G_IO_ERROR, G_IO_ERROR_CANCELLED))
return;
g_warning ("Error receiving header for image data: %s", error->message);
}
self = FPI_DEVICE_VIRTUAL_IMAGE (user_data);
g_io_stream_close (G_IO_STREAM (self->connection), NULL, NULL);
g_clear_object (&self->connection);
return;
}
self = FPI_DEVICE_VIRTUAL_IMAGE (user_data);
device = FP_IMAGE_DEVICE (self);
if (self->automatic_finger)
fpi_image_device_report_finger_status (device, TRUE);
fpi_image_device_image_captured (device, g_steal_pointer (&self->recv_img));
if (self->automatic_finger)
fpi_image_device_report_finger_status (device, FALSE);
/* And, listen for more images from the same client. */
recv_image (self, G_INPUT_STREAM (source_object));
}
static void
recv_image_hdr_recv_cb (GObject *source_object,
GAsyncResult *res,
gpointer user_data)
{
g_autoptr(GError) error = NULL;
FpDeviceVirtualImage *self;
gboolean success;
gsize bytes;
success = g_input_stream_read_all_finish (G_INPUT_STREAM (source_object), res, &bytes, &error);
if (!success || bytes == 0)
{
if (!success)
{
if (g_error_matches (error, G_IO_ERROR, G_IO_ERROR_CANCELLED) ||
g_error_matches (error, G_IO_ERROR, G_IO_ERROR_CLOSED))
return;
g_warning ("Error receiving header for image data: %s", error->message);
}
self = FPI_DEVICE_VIRTUAL_IMAGE (user_data);
g_io_stream_close (G_IO_STREAM (self->connection), NULL, NULL);
g_clear_object (&self->connection);
return;
}
self = FPI_DEVICE_VIRTUAL_IMAGE (user_data);
if (self->recv_img_hdr[0] > 5000 || self->recv_img_hdr[1] > 5000)
{
g_warning ("Image header suggests an unrealistically large image, disconnecting client.");
g_io_stream_close (G_IO_STREAM (self->connection), NULL, NULL);
g_clear_object (&self->connection);
}
if (self->recv_img_hdr[0] < 0 || self->recv_img_hdr[1] < 0)
{
switch (self->recv_img_hdr[0])
{
case -1:
/* -1 is a retry error, just pass it through */
fpi_image_device_retry_scan (FP_IMAGE_DEVICE (self), self->recv_img_hdr[1]);
break;
case -2:
/* -2 is a fatal error, just pass it through*/
fpi_image_device_session_error (FP_IMAGE_DEVICE (self),
fpi_device_error_new (self->recv_img_hdr[1]));
break;
case -3:
/* -3 sets/clears automatic finger detection for images */
self->automatic_finger = !!self->recv_img_hdr[1];
break;
case -4:
/* -4 submits a finger detection report */
fpi_image_device_report_finger_status (FP_IMAGE_DEVICE (self),
!!self->recv_img_hdr[1]);
break;
default:
/* disconnect client, it didn't play fair */
g_io_stream_close (G_IO_STREAM (self->connection), NULL, NULL);
g_clear_object (&self->connection);
}
/* And, listen for more images from the same client. */
recv_image (self, G_INPUT_STREAM (source_object));
return;
}
self->recv_img = fp_image_new (self->recv_img_hdr[0], self->recv_img_hdr[1]);
g_debug ("image data: %p", self->recv_img->data);
g_input_stream_read_all_async (G_INPUT_STREAM (source_object),
(guint8 *) self->recv_img->data,
self->recv_img->width * self->recv_img->height,
G_PRIORITY_DEFAULT,
self->cancellable,
recv_image_img_recv_cb,
self);
}
static void
recv_image (FpDeviceVirtualImage *dev, GInputStream *stream)
{
g_input_stream_read_all_async (stream,
dev->recv_img_hdr,
sizeof (dev->recv_img_hdr),
G_PRIORITY_DEFAULT,
dev->cancellable,
recv_image_hdr_recv_cb,
dev);
}
static void
new_connection_cb (GObject *source_object, GAsyncResult *res, gpointer user_data)
{
g_autoptr(GError) error = NULL;
GSocketConnection *connection;
GInputStream *stream;
FpDeviceVirtualImage *dev = user_data;
connection = g_socket_listener_accept_finish (G_SOCKET_LISTENER (source_object),
res,
NULL,
&error);
if (!connection)
{
if (g_error_matches (error, G_IO_ERROR, G_IO_ERROR_CANCELLED))
return;
g_warning ("Error accepting a new connection: %s", error->message);
start_listen (dev);
}
/* Always further connections (but we disconnect them immediately
* if we already have a connection). */
start_listen (dev);
if (dev->connection)
{
g_io_stream_close (G_IO_STREAM (connection), NULL, NULL);
g_object_unref (connection);
return;
}
dev->connection = connection;
dev->automatic_finger = TRUE;
stream = g_io_stream_get_input_stream (G_IO_STREAM (connection));
recv_image (dev, stream);
fp_dbg ("Got a new connection!");
}
static void
start_listen (FpDeviceVirtualImage *dev)
{
g_socket_listener_accept_async (dev->listener,
dev->cancellable,
new_connection_cb,
dev);
}
static void
dev_init (FpImageDevice *dev)
{
g_autoptr(GError) error = NULL;
g_autoptr(GSocketListener) listener = NULL;
FpDeviceVirtualImage *self = FPI_DEVICE_VIRTUAL_IMAGE (dev);
const char *env;
g_autoptr(GSocketAddress) addr = NULL;
G_DEBUG_HERE ();
self->client_fd = -1;
env = fpi_device_get_virtual_env (FP_DEVICE (self));
listener = g_socket_listener_new ();
g_socket_listener_set_backlog (listener, 1);
/* Remove any left over socket. */
g_unlink (env);
addr = g_unix_socket_address_new (env);
if (!g_socket_listener_add_address (listener,
addr,
G_SOCKET_TYPE_STREAM,
G_SOCKET_PROTOCOL_DEFAULT,
NULL,
NULL,
&error))
{
g_warning ("Could not listen on unix socket: %s", error->message);
fpi_image_device_open_complete (FP_IMAGE_DEVICE (dev), g_steal_pointer (&error));
return;
}
self->listener = g_steal_pointer (&listener);
self->cancellable = g_cancellable_new ();
start_listen (self);
/* Delay result to open up the possibility of testing race conditions. */
fpi_device_add_timeout (FP_DEVICE (dev), 100, (FpTimeoutFunc) fpi_image_device_open_complete, NULL, NULL);
}
static void
dev_deinit (FpImageDevice *dev)
{
FpDeviceVirtualImage *self = FPI_DEVICE_VIRTUAL_IMAGE (dev);
G_DEBUG_HERE ();
g_cancellable_cancel (self->cancellable);
g_clear_object (&self->cancellable);
g_clear_object (&self->listener);
g_clear_object (&self->connection);
/* Delay result to open up the possibility of testing race conditions. */
fpi_device_add_timeout (FP_DEVICE (dev), 100, (FpTimeoutFunc) fpi_image_device_close_complete, NULL, NULL);
}
static void
dev_deactivate (FpImageDevice *dev)
{
G_DEBUG_HERE ();
/* Delay result to open up the possibility of testing race conditions. */
fpi_device_add_timeout (FP_DEVICE (dev), 100, (FpTimeoutFunc) fpi_image_device_deactivate_complete, NULL, NULL);
}
static void
fpi_device_virtual_image_init (FpDeviceVirtualImage *self)
{
}
static const FpIdEntry driver_ids[] = {
{ .virtual_envvar = "FP_VIRTUAL_IMAGE" },
{ .virtual_envvar = NULL }
};
static void
fpi_device_virtual_image_class_init (FpDeviceVirtualImageClass *klass)
{
FpDeviceClass *dev_class = FP_DEVICE_CLASS (klass);
FpImageDeviceClass *img_class = FP_IMAGE_DEVICE_CLASS (klass);
dev_class->id = FP_COMPONENT;
dev_class->full_name = "Virtual image device for debugging";
dev_class->type = FP_DEVICE_TYPE_VIRTUAL;
dev_class->id_table = driver_ids;
img_class->img_open = dev_init;
img_class->img_close = dev_deinit;
img_class->deactivate = dev_deactivate;
}
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