libfprint/libfprint/fp_internal.h
Bastien Nocera fc92f62136 build: Remove the need to modify sources for new drivers
Instead of having to modify both fp_internal.h to list each driver
definition structure, and core.c to add those drivers to arrays we
can loop over, generate both of those using meson.
2018-05-24 12:23:39 +02:00

426 lines
12 KiB
C

/*
* Internal/private definitions for libfprint
* Copyright (C) 2007-2008 Daniel Drake <dsd@gentoo.org>
*
* 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
*/
#ifndef __FPRINT_INTERNAL_H__
#define __FPRINT_INTERNAL_H__
#include <config.h>
#ifdef FP_COMPONENT
#undef G_LOG_DOMAIN
#define G_LOG_DOMAIN "libfprint-"FP_COMPONENT
#endif
#include <stdint.h>
#include <glib.h>
#include <libusb.h>
#include <fprint.h>
#define array_n_elements(array) (sizeof(array) / sizeof(array[0]))
#define container_of(ptr, type, member) ({ \
const typeof( ((type *)0)->member ) *__mptr = (ptr); \
(type *)( (char *)__mptr - offsetof(type,member) );})
#define fp_dbg g_debug
#define fp_info g_debug
#define fp_warn g_warning
#define fp_err g_error
#define BUG_ON(condition) g_assert(condition)
#define BUG() g_assert_not_reached()
enum fp_dev_state {
DEV_STATE_INITIAL = 0,
DEV_STATE_ERROR,
DEV_STATE_INITIALIZING,
DEV_STATE_INITIALIZED,
DEV_STATE_DEINITIALIZING,
DEV_STATE_DEINITIALIZED,
DEV_STATE_ENROLL_STARTING,
DEV_STATE_ENROLLING,
DEV_STATE_ENROLL_STOPPING,
DEV_STATE_VERIFY_STARTING,
DEV_STATE_VERIFYING,
DEV_STATE_VERIFY_DONE,
DEV_STATE_VERIFY_STOPPING,
DEV_STATE_IDENTIFY_STARTING,
DEV_STATE_IDENTIFYING,
DEV_STATE_IDENTIFY_DONE,
DEV_STATE_IDENTIFY_STOPPING,
DEV_STATE_CAPTURE_STARTING,
DEV_STATE_CAPTURING,
DEV_STATE_CAPTURE_DONE,
DEV_STATE_CAPTURE_STOPPING,
};
struct fp_driver **fprint_get_drivers (void);
struct fp_dev {
struct fp_driver *drv;
libusb_device_handle *udev;
uint32_t devtype;
void *priv;
int nr_enroll_stages;
/* read-only to drivers */
struct fp_print_data *verify_data;
/* drivers should not mess with any of the below */
enum fp_dev_state state;
int __enroll_stage;
int unconditional_capture;
/* async I/O callbacks and data */
/* FIXME: convert this to generic state operational data mechanism? */
fp_dev_open_cb open_cb;
void *open_cb_data;
fp_operation_stop_cb close_cb;
void *close_cb_data;
fp_enroll_stage_cb enroll_stage_cb;
void *enroll_stage_cb_data;
fp_operation_stop_cb enroll_stop_cb;
void *enroll_stop_cb_data;
fp_img_operation_cb verify_cb;
void *verify_cb_data;
fp_operation_stop_cb verify_stop_cb;
void *verify_stop_cb_data;
fp_identify_cb identify_cb;
void *identify_cb_data;
fp_operation_stop_cb identify_stop_cb;
void *identify_stop_cb_data;
fp_img_operation_cb capture_cb;
void *capture_cb_data;
fp_operation_stop_cb capture_stop_cb;
void *capture_stop_cb_data;
/* FIXME: better place to put this? */
struct fp_print_data **identify_gallery;
};
enum fp_imgdev_state {
IMGDEV_STATE_INACTIVE,
IMGDEV_STATE_AWAIT_FINGER_ON,
IMGDEV_STATE_CAPTURE,
IMGDEV_STATE_AWAIT_FINGER_OFF,
};
enum fp_imgdev_action {
IMG_ACTION_NONE = 0,
IMG_ACTION_ENROLL,
IMG_ACTION_VERIFY,
IMG_ACTION_IDENTIFY,
IMG_ACTION_CAPTURE,
};
enum fp_imgdev_enroll_state {
IMG_ACQUIRE_STATE_NONE = 0,
IMG_ACQUIRE_STATE_ACTIVATING,
IMG_ACQUIRE_STATE_AWAIT_FINGER_ON,
IMG_ACQUIRE_STATE_AWAIT_IMAGE,
IMG_ACQUIRE_STATE_AWAIT_FINGER_OFF,
IMG_ACQUIRE_STATE_DONE,
IMG_ACQUIRE_STATE_DEACTIVATING,
};
enum fp_imgdev_verify_state {
IMG_VERIFY_STATE_NONE = 0,
IMG_VERIFY_STATE_ACTIVATING
};
struct fp_img_dev {
struct fp_dev *dev;
libusb_device_handle *udev;
enum fp_imgdev_action action;
int action_state;
struct fp_print_data *acquire_data;
struct fp_print_data *enroll_data;
struct fp_img *acquire_img;
int enroll_stage;
int action_result;
/* FIXME: better place to put this? */
size_t identify_match_offset;
void *priv;
};
int fpi_imgdev_get_img_width(struct fp_img_dev *imgdev);
int fpi_imgdev_get_img_height(struct fp_img_dev *imgdev);
struct usb_id {
uint16_t vendor;
uint16_t product;
unsigned long driver_data;
};
enum fp_driver_type {
DRIVER_PRIMITIVE = 0,
DRIVER_IMAGING = 1,
};
struct fp_driver {
const uint16_t id;
const char *name;
const char *full_name;
const struct usb_id * const id_table;
enum fp_driver_type type;
enum fp_scan_type scan_type;
void *priv;
/* Device operations */
int (*discover)(struct libusb_device_descriptor *dsc, uint32_t *devtype);
int (*open)(struct fp_dev *dev, unsigned long driver_data);
void (*close)(struct fp_dev *dev);
int (*enroll_start)(struct fp_dev *dev);
int (*enroll_stop)(struct fp_dev *dev);
int (*verify_start)(struct fp_dev *dev);
int (*verify_stop)(struct fp_dev *dev, gboolean iterating);
int (*identify_start)(struct fp_dev *dev);
int (*identify_stop)(struct fp_dev *dev, gboolean iterating);
int (*capture_start)(struct fp_dev *dev);
int (*capture_stop)(struct fp_dev *dev);
};
enum fp_print_data_type fpi_driver_get_data_type(struct fp_driver *drv);
/* flags for fp_img_driver.flags */
#define FP_IMGDRV_SUPPORTS_UNCONDITIONAL_CAPTURE (1 << 0)
struct fp_img_driver {
struct fp_driver driver;
uint16_t flags;
int img_width;
int img_height;
int bz3_threshold;
/* Device operations */
int (*open)(struct fp_img_dev *dev, unsigned long driver_data);
void (*close)(struct fp_img_dev *dev);
int (*activate)(struct fp_img_dev *dev, enum fp_imgdev_state state);
int (*change_state)(struct fp_img_dev *dev, enum fp_imgdev_state state);
void (*deactivate)(struct fp_img_dev *dev);
};
#include "drivers_definitions.h"
extern libusb_context *fpi_usb_ctx;
extern GSList *opened_devices;
void fpi_img_driver_setup(struct fp_img_driver *idriver);
#define fpi_driver_to_img_driver(drv) \
container_of((drv), struct fp_img_driver, driver)
struct fp_dscv_dev {
struct libusb_device *udev;
struct fp_driver *drv;
unsigned long driver_data;
uint32_t devtype;
};
struct fp_dscv_print {
uint16_t driver_id;
uint32_t devtype;
enum fp_finger finger;
char *path;
};
enum fp_print_data_type {
PRINT_DATA_RAW = 0, /* memset-imposed default */
PRINT_DATA_NBIS_MINUTIAE,
};
struct fp_print_data_item {
size_t length;
unsigned char data[0];
};
struct fp_print_data {
uint16_t driver_id;
uint32_t devtype;
enum fp_print_data_type type;
GSList *prints;
};
struct fpi_print_data_fp2 {
char prefix[3];
uint16_t driver_id;
uint32_t devtype;
unsigned char data_type;
unsigned char data[0];
} __attribute__((__packed__));
struct fpi_print_data_item_fp2 {
uint32_t length;
unsigned char data[0];
} __attribute__((__packed__));
void fpi_data_exit(void);
struct fp_print_data *fpi_print_data_new(struct fp_dev *dev);
struct fp_print_data_item *fpi_print_data_item_new(size_t length);
gboolean fpi_print_data_compatible(uint16_t driver_id1, uint32_t devtype1,
enum fp_print_data_type type1, uint16_t driver_id2, uint32_t devtype2,
enum fp_print_data_type type2);
struct fp_minutia {
int x;
int y;
int ex;
int ey;
int direction;
double reliability;
int type;
int appearing;
int feature_id;
int *nbrs;
int *ridge_counts;
int num_nbrs;
};
struct fp_minutiae {
int alloc;
int num;
struct fp_minutia **list;
};
/* bit values for fp_img.flags */
#define FP_IMG_V_FLIPPED (1<<0)
#define FP_IMG_H_FLIPPED (1<<1)
#define FP_IMG_COLORS_INVERTED (1<<2)
#define FP_IMG_BINARIZED_FORM (1<<3)
#define FP_IMG_PARTIAL (1<<4)
#define FP_IMG_STANDARDIZATION_FLAGS (FP_IMG_V_FLIPPED | FP_IMG_H_FLIPPED \
| FP_IMG_COLORS_INVERTED)
struct fp_img {
int width;
int height;
size_t length;
uint16_t flags;
struct fp_minutiae *minutiae;
unsigned char *binarized;
unsigned char data[0];
};
struct fp_img *fpi_img_new(size_t length);
struct fp_img *fpi_img_new_for_imgdev(struct fp_img_dev *dev);
struct fp_img *fpi_img_resize(struct fp_img *img, size_t newsize);
gboolean fpi_img_is_sane(struct fp_img *img);
int fpi_img_to_print_data(struct fp_img_dev *imgdev, struct fp_img *img,
struct fp_print_data **ret);
int fpi_img_compare_print_data(struct fp_print_data *enrolled_print,
struct fp_print_data *new_print);
int fpi_img_compare_print_data_to_gallery(struct fp_print_data *print,
struct fp_print_data **gallery, int match_threshold, size_t *match_offset);
struct fp_img *fpi_im_resize(struct fp_img *img, unsigned int w_factor, unsigned int h_factor);
/* polling and timeouts */
void fpi_poll_init(void);
void fpi_poll_exit(void);
typedef void (*fpi_timeout_fn)(void *data);
struct fpi_timeout;
struct fpi_timeout *fpi_timeout_add(unsigned int msec, fpi_timeout_fn callback,
void *data);
void fpi_timeout_cancel(struct fpi_timeout *timeout);
/* async drv <--> lib comms */
struct fpi_ssm;
typedef void (*ssm_completed_fn)(struct fpi_ssm *ssm);
typedef void (*ssm_handler_fn)(struct fpi_ssm *ssm);
/* sequential state machine: state machine that iterates sequentially over
* a predefined series of states. can be aborted by either completion or
* abortion error conditions. */
struct fpi_ssm {
struct fp_dev *dev;
struct fpi_ssm *parentsm;
void *priv;
int nr_states;
int cur_state;
gboolean completed;
int error;
ssm_completed_fn callback;
ssm_handler_fn handler;
};
/* for library and drivers */
struct fpi_ssm *fpi_ssm_new(struct fp_dev *dev, ssm_handler_fn handler,
int nr_states);
void fpi_ssm_free(struct fpi_ssm *machine);
void fpi_ssm_start(struct fpi_ssm *machine, ssm_completed_fn callback);
void fpi_ssm_start_subsm(struct fpi_ssm *parent, struct fpi_ssm *child);
int fpi_ssm_has_completed(struct fpi_ssm *machine);
/* for drivers */
void fpi_ssm_next_state(struct fpi_ssm *machine);
void fpi_ssm_jump_to_state(struct fpi_ssm *machine, int state);
void fpi_ssm_mark_completed(struct fpi_ssm *machine);
void fpi_ssm_mark_aborted(struct fpi_ssm *machine, int error);
void fpi_drvcb_open_complete(struct fp_dev *dev, int status);
void fpi_drvcb_close_complete(struct fp_dev *dev);
void fpi_drvcb_enroll_started(struct fp_dev *dev, int status);
void fpi_drvcb_enroll_stage_completed(struct fp_dev *dev, int result,
struct fp_print_data *data, struct fp_img *img);
void fpi_drvcb_enroll_stopped(struct fp_dev *dev);
void fpi_drvcb_verify_started(struct fp_dev *dev, int status);
void fpi_drvcb_report_verify_result(struct fp_dev *dev, int result,
struct fp_img *img);
void fpi_drvcb_verify_stopped(struct fp_dev *dev);
void fpi_drvcb_identify_started(struct fp_dev *dev, int status);
void fpi_drvcb_report_identify_result(struct fp_dev *dev, int result,
size_t match_offset, struct fp_img *img);
void fpi_drvcb_identify_stopped(struct fp_dev *dev);
void fpi_drvcb_capture_started(struct fp_dev *dev, int status);
void fpi_drvcb_report_capture_result(struct fp_dev *dev, int result,
struct fp_img *img);
void fpi_drvcb_capture_stopped(struct fp_dev *dev);
/* for image drivers */
void fpi_imgdev_open_complete(struct fp_img_dev *imgdev, int status);
void fpi_imgdev_close_complete(struct fp_img_dev *imgdev);
void fpi_imgdev_activate_complete(struct fp_img_dev *imgdev, int status);
void fpi_imgdev_deactivate_complete(struct fp_img_dev *imgdev);
void fpi_imgdev_report_finger_status(struct fp_img_dev *imgdev,
gboolean present);
void fpi_imgdev_image_captured(struct fp_img_dev *imgdev, struct fp_img *img);
void fpi_imgdev_abort_scan(struct fp_img_dev *imgdev, int result);
void fpi_imgdev_session_error(struct fp_img_dev *imgdev, int error);
/* utils */
int fpi_std_sq_dev(const unsigned char *buf, int size);
int fpi_mean_sq_diff_norm(unsigned char *buf1, unsigned char *buf2, int size);
#endif