libfprint/libfprint/fpi-device.h
2019-12-17 14:38:19 +01:00

254 lines
9.8 KiB
C

/*
* FpDevice - A fingerprint reader device
* 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
*/
#pragma once
#include <gusb.h>
#include "fp-device.h"
#include "fp-image.h"
#include "fpi-print.h"
/**
* FpIdEntry:
*
* An entry in the table of supported hardware. For USB devices, the product ID
* and vendor ID should be provided. The optional @driver_data field defaults
* to 0 and can be used as a simple flag for device quirks.
*/
typedef struct _FpIdEntry FpIdEntry;
struct _FpIdEntry
{
union
{
struct
{
guint pid;
guint vid;
};
const gchar *virtual_envvar;
};
guint64 driver_data;
};
/**
* FpDeviceClass:
* @id: ID string for the driver. Should be a valid C identifier and should
* match the drivers file name.
* @full_name: Human readable description of the driver
* @type: The type of driver
* @id_table: The table of IDs to bind the driver to
* @nr_enroll_stages: The number of enroll stages supported devices need; use
* fpi_device_set_nr_enroll_stages() from @probe if this is dynamic.
* @scan_type: The scan type of supported devices; use
* fpi_device_set_scan_type() from @probe if this is dynamic.
* @usb_discover: Class method to check whether a USB device is supported by
* the driver. Should return 0 if the device is unsupported and a positive
* score otherwise. The default score is 50 and the driver with the highest
* score will be loaded.
* @probe: Called immediately for all devices. Most drivers will not need to
* implement this. Drivers should setup the device identifier from the probe
* callback which will be used to verify the compatibility of stored
* #FpPrint's. It is permissable to temporarily open the USB device if this
* is required for the operation. If an error is returned, then the device
* will be destroyed again immediately and never reported to the API user.
* @open: Open the device for futher operations. Any of the normal actions are
* guaranteed to only happen when the device is open (this includes delete).
* @close: Close the device again
* @enroll: Start an enroll operation
* @verify: Start a verify operation
* @identify: Start an identify operation
* @capture: Start a capture operation
* @list: List prints stored on the device
* @delete: Delete a print from the device
* @cancel: Called on cancellation, this is a convenience to not need to handle
* the #GCancellable directly by using fpi_device_get_cancellable().
*
* NOTE: If your driver is image based, then you should subclass #FpImageDevice
* instead. #FpImageDevice based drivers use a different way of interacting
* with libfprint.
*
* These are the main entry points for drivers to implement. Drivers may not
* implement all of these entry points if they do not support the operation
* (or a default implementation is sufficient).
*
* Drivers must eventually call the corresponding function to finish the
* operation. It is also acceptable to call the generic
* fpi_device_action_error() function but doing so is not recommended in most
* usecases.
*
* Drivers must also handle cancellation properly for any long running
* operation (i.e. any operation that requires capturing). It is entirely fine
* to ignore cancellation requests for short operations (e.g. open/close).
*
* This API is solely intended for drivers. It is purely internal and neither
* API nor ABI stable.
*/
struct _FpDeviceClass
{
/*< private >*/
GObjectClass parent_class;
/*< public >*/
/* Static information about the driver. */
const gchar *id;
const gchar *full_name;
FpDeviceType type;
const FpIdEntry *id_table;
/* Defaults for device properties */
gint nr_enroll_stages;
FpScanType scan_type;
/* Callbacks */
gint (*usb_discover) (GUsbDevice *usb_device);
void (*probe) (FpDevice *device);
void (*open) (FpDevice *device);
void (*close) (FpDevice *device);
void (*enroll) (FpDevice *device);
void (*verify) (FpDevice *device);
void (*identify) (FpDevice *device);
void (*capture) (FpDevice *device);
void (*list) (FpDevice *device);
void (*delete) (FpDevice * device);
void (*cancel) (FpDevice *device);
};
/**
* FpTimeoutFunc:
* @device: The #FpDevice passed to fpi_device_add_timeout()
* @user_data: the data passed to fpi_device_add_timeout()
*
* The prototype of the callback function for fpi_device_add_timeout().
*/
typedef void (*FpTimeoutFunc) (FpDevice *device,
gpointer user_data);
/**
* FpiDeviceAction:
* @FPI_DEVICE_ACTION_NONE: No action is active.
* @FPI_DEVICE_ACTION_PROBE: Probe device for support and information.
* @FPI_DEVICE_ACTION_OPEN: Device is currently being opened.
* @FPI_DEVICE_ACTION_CLOSE: Device is currently being closed.
* @FPI_DEVICE_ACTION_ENROLL: Device is currently enrolling.
* @FPI_DEVICE_ACTION_VERIFY: Device is currently verifying.
* @FPI_DEVICE_ACTION_IDENTIFY: Device is currently identifying.
* @FPI_DEVICE_ACTION_CAPTURE: Device is currently capturing an image.
* @FPI_DEVICE_ACTION_LIST: Device stored prints are being queried.
* @FPI_DEVICE_ACTION_DELETE: Device stored print is being deleted.
*
* Current active action of the device. A driver can retrieve the action.
*/
typedef enum {
FPI_DEVICE_ACTION_NONE = 0,
FPI_DEVICE_ACTION_PROBE,
FPI_DEVICE_ACTION_OPEN,
FPI_DEVICE_ACTION_CLOSE,
FPI_DEVICE_ACTION_ENROLL,
FPI_DEVICE_ACTION_VERIFY,
FPI_DEVICE_ACTION_IDENTIFY,
FPI_DEVICE_ACTION_CAPTURE,
FPI_DEVICE_ACTION_LIST,
FPI_DEVICE_ACTION_DELETE,
} FpiDeviceAction;
GUsbDevice *fpi_device_get_usb_device (FpDevice *device);
const gchar *fpi_device_get_virtual_env (FpDevice *device);
//const gchar *fpi_device_get_spi_dev (FpDevice *device);
FpiDeviceAction fpi_device_get_current_action (FpDevice *device);
gboolean fpi_device_action_is_cancelled (FpDevice *device);
GError * fpi_device_retry_new (FpDeviceRetry error);
GError * fpi_device_error_new (FpDeviceError error);
GError * fpi_device_retry_new_msg (FpDeviceRetry error,
const gchar *msg,
...) G_GNUC_PRINTF (2, 3);
GError * fpi_device_error_new_msg (FpDeviceError error,
const gchar *msg,
...) G_GNUC_PRINTF (2, 3);
guint64 fpi_device_get_driver_data (FpDevice *device);
void fpi_device_get_enroll_data (FpDevice *device,
FpPrint **print);
void fpi_device_get_capture_data (FpDevice *device,
gboolean *wait_for_finger);
void fpi_device_get_verify_data (FpDevice *device,
FpPrint **print);
void fpi_device_get_identify_data (FpDevice *device,
GPtrArray **prints);
void fpi_device_get_delete_data (FpDevice *device,
FpPrint **print);
GCancellable *fpi_device_get_cancellable (FpDevice *device);
GSource * fpi_device_add_timeout (FpDevice *device,
gint interval,
FpTimeoutFunc func,
gpointer user_data,
GDestroyNotify destroy_notify);
void fpi_device_set_nr_enroll_stages (FpDevice *device,
gint enroll_stages);
void fpi_device_set_scan_type (FpDevice *device,
FpScanType scan_type);
void fpi_device_action_error (FpDevice *device,
GError *error);
void fpi_device_probe_complete (FpDevice *device,
const gchar *device_id,
const gchar *device_name,
GError *error);
void fpi_device_open_complete (FpDevice *device,
GError *error);
void fpi_device_close_complete (FpDevice *device,
GError *error);
void fpi_device_enroll_complete (FpDevice *device,
FpPrint *print,
GError *error);
void fpi_device_verify_complete (FpDevice *device,
FpiMatchResult result,
FpPrint *print,
GError *error);
void fpi_device_identify_complete (FpDevice *device,
FpPrint *match,
FpPrint *print,
GError *error);
void fpi_device_capture_complete (FpDevice *device,
FpImage *image,
GError *error);
void fpi_device_delete_complete (FpDevice *device,
GError *error);
void fpi_device_list_complete (FpDevice *device,
GPtrArray *prints,
GError *error);
void fpi_device_enroll_progress (FpDevice *device,
gint completed_stages,
FpPrint *print,
GError *error);
G_END_DECLS