upektc: Port upektc driver to new API

This commit is contained in:
Benjamin Berg 2019-08-07 13:21:42 +02:00
parent a8d15bccba
commit fcfe82a7b8
2 changed files with 225 additions and 263 deletions

View file

@ -23,13 +23,15 @@
#include "drivers_api.h"
#include "upektc.h"
#define UPEKTC_EP_IN (2 | LIBUSB_ENDPOINT_IN)
#define UPEKTC_EP_OUT (3 | LIBUSB_ENDPOINT_OUT)
#define UPEKET_EP_IN (1 | LIBUSB_ENDPOINT_IN)
#define UPEKET_EP_OUT (2 | LIBUSB_ENDPOINT_OUT)
#define UPEKTC_EP_IN (2 | FPI_USB_ENDPOINT_IN)
#define UPEKTC_EP_OUT (3 | FPI_USB_ENDPOINT_OUT)
#define UPEKET_EP_IN (1 | FPI_USB_ENDPOINT_IN)
#define UPEKET_EP_OUT (2 | FPI_USB_ENDPOINT_OUT)
#define BULK_TIMEOUT 4000
struct upektc_dev {
struct _FpiDeviceUpektc {
FpImageDevice parent;
gboolean deactivating;
const struct setup_cmd *setup_commands;
size_t setup_commands_len;
@ -38,15 +40,18 @@ struct upektc_dev {
int init_idx;
int sum_threshold;
};
G_DECLARE_FINAL_TYPE(FpiDeviceUpektc, fpi_device_upektc, FPI, DEVICE_UPEKTC,
FpImageDevice);
G_DEFINE_TYPE(FpiDeviceUpektc, fpi_device_upektc, FP_TYPE_IMAGE_DEVICE);
enum upektc_driver_data {
UPEKTC_2015,
UPEKTC_3001,
};
static void start_capture(struct fp_img_dev *dev);
static void complete_deactivation(struct fp_img_dev *dev);
static void start_finger_detection(struct fp_img_dev *dev);
static void start_capture(FpImageDevice *dev);
static void complete_deactivation(FpImageDevice *dev, GError *error);
static void start_finger_detection(FpImageDevice *dev);
/****** INITIALIZATION/DEINITIALIZATION ******/
@ -57,98 +62,90 @@ enum activate_states {
};
static void
upektc_next_init_cmd(fpi_ssm *ssm,
struct fp_img_dev *dev)
upektc_next_init_cmd(FpiSsm *ssm,
FpImageDevice *dev)
{
struct upektc_dev *upekdev = FP_INSTANCE_DATA(FP_DEV(dev));
FpiDeviceUpektc *self = FPI_DEVICE_UPEKTC(dev);
upekdev->init_idx += 1;
if (upekdev->init_idx == upekdev->setup_commands_len)
self->init_idx += 1;
if (self->init_idx == self->setup_commands_len)
fpi_ssm_mark_completed(ssm);
else
fpi_ssm_jump_to_state(ssm, WRITE_INIT);
}
static void write_init_cb(struct libusb_transfer *transfer)
static void write_init_cb(FpiUsbTransfer *transfer, FpDevice *device,
gpointer user_data, GError *error)
{
fpi_ssm *ssm = transfer->user_data;
struct fp_img_dev *dev = fpi_ssm_get_user_data(ssm);
struct upektc_dev *upekdev = FP_INSTANCE_DATA(FP_DEV(dev));
FpImageDevice *dev = FP_IMAGE_DEVICE(device);
FpiDeviceUpektc *self = FPI_DEVICE_UPEKTC(dev);
if ((transfer->status == LIBUSB_TRANSFER_COMPLETED) &&
(transfer->length == transfer->actual_length)) {
if (upekdev->setup_commands[upekdev->init_idx].response_len)
fpi_ssm_next_state(ssm);
if (!error) {
if (self->setup_commands[self->init_idx].response_len)
fpi_ssm_next_state(transfer->ssm);
else
upektc_next_init_cmd(ssm, dev);
upektc_next_init_cmd(transfer->ssm, dev);
} else {
fpi_ssm_mark_failed(ssm, -EIO);
fpi_ssm_mark_failed(transfer->ssm, error);
}
libusb_free_transfer(transfer);
}
static void read_init_data_cb(struct libusb_transfer *transfer)
static void read_init_data_cb(FpiUsbTransfer *transfer, FpDevice *device,
gpointer user_data, GError *error)
{
fpi_ssm *ssm = transfer->user_data;
struct fp_img_dev *dev = fpi_ssm_get_user_data(ssm);
FpImageDevice *dev = FP_IMAGE_DEVICE(device);
if (transfer->status == LIBUSB_TRANSFER_COMPLETED)
upektc_next_init_cmd(ssm, dev);
if (!error)
upektc_next_init_cmd(transfer->ssm, dev);
else
fpi_ssm_mark_failed(ssm, -EIO);
g_free(transfer->buffer);
libusb_free_transfer(transfer);
fpi_ssm_mark_failed(transfer->ssm, error);
}
static void activate_run_state(fpi_ssm *ssm, struct fp_dev *_dev, void *user_data)
static void activate_run_state(FpiSsm *ssm, FpDevice *dev, void *user_data)
{
struct fp_img_dev *dev = user_data;
struct upektc_dev *upekdev = FP_INSTANCE_DATA(_dev);
int r;
FpiDeviceUpektc *self = FPI_DEVICE_UPEKTC(dev);
switch (fpi_ssm_get_cur_state(ssm)) {
case WRITE_INIT:
{
struct libusb_transfer *transfer = fpi_usb_alloc();
FpiUsbTransfer *transfer = fpi_usb_transfer_new(dev);
libusb_fill_bulk_transfer(transfer, fpi_dev_get_usb_dev(FP_DEV(dev)), upekdev->ep_out,
(unsigned char*)upekdev->setup_commands[upekdev->init_idx].cmd,
UPEKTC_CMD_LEN, write_init_cb, ssm, BULK_TIMEOUT);
r = libusb_submit_transfer(transfer);
if (r < 0) {
libusb_free_transfer(transfer);
fpi_ssm_mark_failed(ssm, -ENOMEM);
}
fpi_usb_transfer_fill_bulk_full(transfer,
self->ep_out,
(unsigned char *) self->setup_commands[self->init_idx].cmd,
UPEKTC_CMD_LEN,
NULL);
transfer->ssm = ssm;
transfer->short_is_error = TRUE;
fpi_usb_transfer_submit(transfer, BULK_TIMEOUT, NULL,
write_init_cb, NULL);
fpi_usb_transfer_unref(transfer);
}
break;
case READ_DATA:
{
struct libusb_transfer *transfer = fpi_usb_alloc();
unsigned char *data;
FpiUsbTransfer *transfer = fpi_usb_transfer_new(dev);
data = g_malloc(upekdev->setup_commands[upekdev->init_idx].response_len);
libusb_fill_bulk_transfer(transfer, fpi_dev_get_usb_dev(FP_DEV(dev)), upekdev->ep_in, data,
upekdev->setup_commands[upekdev->init_idx].response_len,
read_init_data_cb, ssm, BULK_TIMEOUT);
r = libusb_submit_transfer(transfer);
if (r < 0) {
g_free(data);
libusb_free_transfer(transfer);
fpi_ssm_mark_failed(ssm, r);
}
fpi_usb_transfer_fill_bulk (transfer,
self->ep_in,
self->setup_commands[self->init_idx].response_len);
transfer->ssm = ssm;
fpi_usb_transfer_submit(transfer, BULK_TIMEOUT, NULL,
read_init_data_cb, NULL);
fpi_usb_transfer_unref(transfer);
}
break;
}
}
static void activate_sm_complete(fpi_ssm *ssm, struct fp_dev *_dev, void *user_data)
static void activate_sm_complete(FpiSsm *ssm, FpDevice *_dev,
void *user_data, GError *error)
{
struct fp_img_dev *dev = user_data;
fp_dbg("status %d", fpi_ssm_get_error(ssm));
fpi_imgdev_activate_complete(dev, fpi_ssm_get_error(ssm));
FpImageDevice *dev = FP_IMAGE_DEVICE(_dev);
if (!fpi_ssm_get_error(ssm))
fpi_image_device_activate_complete(dev, error);
if (!error)
start_finger_detection(dev);
fpi_ssm_free(ssm);
}
@ -172,90 +169,69 @@ static int finger_present(unsigned char *img, size_t len, int sum_threshold)
return sum < sum_threshold ? 0 : 1;
}
static void finger_det_data_cb(struct libusb_transfer *transfer)
static void finger_det_data_cb(FpiUsbTransfer *transfer, FpDevice *device,
gpointer user_data, GError *error)
{
struct fp_img_dev *dev = transfer->user_data;
struct upektc_dev *upekdev = FP_INSTANCE_DATA(FP_DEV(dev));
unsigned char *data = transfer->buffer;
FpImageDevice *dev = FP_IMAGE_DEVICE(device);
FpiDeviceUpektc *self = FPI_DEVICE_UPEKTC(dev);
if (transfer->status != LIBUSB_TRANSFER_COMPLETED) {
fp_dbg("data transfer status %d\n", transfer->status);
fpi_imgdev_session_error(dev, -EIO);
goto out;
} else if (transfer->length != transfer->actual_length) {
fp_dbg("expected %d, got %d bytes", transfer->length,
transfer->actual_length);
fpi_imgdev_session_error(dev, -EPROTO);
if (error) {
fp_dbg("data transfer status %s\n", error->message);
fpi_image_device_session_error(dev, error);
return;
}
if (finger_present(data, IMAGE_SIZE, upekdev->sum_threshold)) {
if (finger_present(transfer->buffer, IMAGE_SIZE, self->sum_threshold)) {
/* finger present, start capturing */
fpi_imgdev_report_finger_status(dev, TRUE);
fpi_image_device_report_finger_status(dev, TRUE);
start_capture(dev);
} else {
/* no finger, poll for a new histogram */
start_finger_detection(dev);
}
out:
g_free(data);
libusb_free_transfer(transfer);
}
static void finger_det_cmd_cb(struct libusb_transfer *t)
static void finger_det_cmd_cb(FpiUsbTransfer *t, FpDevice *device,
gpointer user_data, GError *error)
{
struct libusb_transfer *transfer;
unsigned char *data;
int r;
struct fp_img_dev *dev = t->user_data;
struct upektc_dev *upekdev = FP_INSTANCE_DATA(FP_DEV(dev));
FpiUsbTransfer *transfer;
FpImageDevice *dev = FP_IMAGE_DEVICE (device);
FpiDeviceUpektc *self = FPI_DEVICE_UPEKTC(dev);
if (t->status != LIBUSB_TRANSFER_COMPLETED) {
fp_dbg("req transfer status %d\n", t->status);
fpi_imgdev_session_error(dev, -EIO);
goto exit_free_transfer;
} else if (t->length != t->actual_length) {
fp_dbg("expected %d, sent %d bytes", t->length, t->actual_length);
fpi_imgdev_session_error(dev, -EPROTO);
goto exit_free_transfer;
}
transfer = fpi_usb_alloc();
data = g_malloc(IMAGE_SIZE);
libusb_fill_bulk_transfer(transfer, fpi_dev_get_usb_dev(FP_DEV(dev)), upekdev->ep_in, data, IMAGE_SIZE,
finger_det_data_cb, dev, BULK_TIMEOUT);
r = libusb_submit_transfer(transfer);
if (r < 0) {
g_free(data);
libusb_free_transfer(transfer);
fpi_imgdev_session_error(dev, r);
}
exit_free_transfer:
libusb_free_transfer(t);
}
static void start_finger_detection(struct fp_img_dev *dev)
{
int r;
struct upektc_dev *upekdev = FP_INSTANCE_DATA(FP_DEV(dev));
struct libusb_transfer *transfer;
G_DEBUG_HERE();
if (upekdev->deactivating) {
complete_deactivation(dev);
if (error) {
fp_dbg("req transfer status %s\n", error->message);
fpi_image_device_session_error(dev, error);
return;
}
transfer = fpi_usb_alloc();
libusb_fill_bulk_transfer(transfer, fpi_dev_get_usb_dev(FP_DEV(dev)), upekdev->ep_out,
(unsigned char *)scan_cmd, UPEKTC_CMD_LEN,
finger_det_cmd_cb, dev, BULK_TIMEOUT);
r = libusb_submit_transfer(transfer);
if (r < 0) {
libusb_free_transfer(transfer);
fpi_imgdev_session_error(dev, r);
transfer = fpi_usb_transfer_new (device);
transfer->short_is_error = TRUE;
fpi_usb_transfer_fill_bulk(transfer, self->ep_in,
IMAGE_SIZE);
fpi_usb_transfer_submit(transfer, BULK_TIMEOUT, NULL,
finger_det_data_cb, NULL);
fpi_usb_transfer_unref(transfer);
}
static void start_finger_detection(FpImageDevice *dev)
{
FpiDeviceUpektc *self = FPI_DEVICE_UPEKTC(dev);
FpiUsbTransfer *transfer;
G_DEBUG_HERE();
if (self->deactivating) {
complete_deactivation(dev, NULL);
return;
}
transfer = fpi_usb_transfer_new(FP_DEVICE(dev));
transfer->short_is_error = TRUE;
fpi_usb_transfer_fill_bulk_full(transfer, self->ep_out,
(unsigned char *)scan_cmd,
UPEKTC_CMD_LEN, NULL);
fpi_usb_transfer_submit(transfer, BULK_TIMEOUT, NULL,
finger_det_cmd_cb, NULL);
fpi_usb_transfer_unref(transfer);
}
/****** CAPTURE ******/
@ -266,213 +242,199 @@ enum capture_states {
CAPTURE_NUM_STATES,
};
static void capture_cmd_cb(struct libusb_transfer *transfer)
static void capture_cmd_cb(FpiUsbTransfer *transfer, FpDevice *device,
gpointer user_data, GError *error)
{
fpi_ssm *ssm = transfer->user_data;
if ((transfer->status == LIBUSB_TRANSFER_COMPLETED) &&
(transfer->length == transfer->actual_length)) {
fpi_ssm_next_state(ssm);
if (!error) {
fpi_ssm_next_state(transfer->ssm);
} else {
fpi_ssm_mark_failed(ssm, -EIO);
fpi_ssm_mark_failed(transfer->ssm, error);
}
libusb_free_transfer(transfer);
}
static void capture_read_data_cb(struct libusb_transfer *transfer)
static void capture_read_data_cb(FpiUsbTransfer *transfer, FpDevice *device,
gpointer user_data, GError *error)
{
fpi_ssm *ssm = transfer->user_data;
struct fp_img_dev *dev = fpi_ssm_get_user_data(ssm);
unsigned char *data = transfer->buffer;
struct fp_img *img;
FpImageDevice *dev = FP_IMAGE_DEVICE(device);
FpImage *img;
if (transfer->status != LIBUSB_TRANSFER_COMPLETED) {
fp_dbg("request is not completed, %d", transfer->status);
fpi_ssm_mark_failed(ssm, -EIO);
goto out;
} else if (transfer->length != transfer->actual_length) {
fp_dbg("expected %d, sent %d bytes", transfer->length, transfer->actual_length);
fpi_ssm_mark_failed(ssm, -EPROTO);
goto out;
if (error) {
fp_dbg("request is not completed, %s", error->message);
fpi_ssm_mark_failed(transfer->ssm, error);
return;
}
img = fpi_img_new(IMAGE_SIZE);
memcpy(img->data, data, IMAGE_SIZE);
fpi_imgdev_image_captured(dev, img);
fpi_imgdev_report_finger_status(dev, FALSE);
fpi_ssm_mark_completed(ssm);
out:
g_free(transfer->buffer);
libusb_free_transfer(transfer);
img = fp_image_new(IMAGE_WIDTH, IMAGE_HEIGHT);
memcpy(img->data, transfer->buffer, IMAGE_SIZE);
fpi_image_device_image_captured(dev, img);
fpi_image_device_report_finger_status(dev, FALSE);
fpi_ssm_mark_completed(transfer->ssm);
}
static void capture_run_state(fpi_ssm *ssm, struct fp_dev *_dev, void *user_data)
static void capture_run_state(FpiSsm *ssm, FpDevice *_dev, void *user_data)
{
struct fp_img_dev *dev = user_data;
struct upektc_dev *upekdev = FP_INSTANCE_DATA(_dev);
int r;
FpiDeviceUpektc *self = FPI_DEVICE_UPEKTC(_dev);
switch (fpi_ssm_get_cur_state(ssm)) {
case CAPTURE_WRITE_CMD:
{
struct libusb_transfer *transfer = fpi_usb_alloc();
FpiUsbTransfer *transfer = fpi_usb_transfer_new(_dev);
libusb_fill_bulk_transfer(transfer, fpi_dev_get_usb_dev(FP_DEV(dev)), upekdev->ep_out,
(unsigned char *)scan_cmd, UPEKTC_CMD_LEN,
capture_cmd_cb, ssm, BULK_TIMEOUT);
r = libusb_submit_transfer(transfer);
if (r < 0) {
libusb_free_transfer(transfer);
fpi_ssm_mark_failed(ssm, -ENOMEM);
}
fpi_usb_transfer_fill_bulk_full(transfer, self->ep_out,
(unsigned char *)scan_cmd,
UPEKTC_CMD_LEN, NULL);
transfer->ssm = ssm;
transfer->short_is_error = TRUE;
fpi_usb_transfer_submit(transfer, BULK_TIMEOUT, NULL,
capture_cmd_cb, NULL);
fpi_usb_transfer_unref(transfer);
}
break;
case CAPTURE_READ_DATA:
{
struct libusb_transfer *transfer = fpi_usb_alloc();
unsigned char *data;
FpiUsbTransfer *transfer = fpi_usb_transfer_new(_dev);
data = g_malloc(IMAGE_SIZE);
libusb_fill_bulk_transfer(transfer, fpi_dev_get_usb_dev(FP_DEV(dev)), upekdev->ep_in, data, IMAGE_SIZE,
capture_read_data_cb, ssm, BULK_TIMEOUT);
r = libusb_submit_transfer(transfer);
if (r < 0) {
g_free(data);
libusb_free_transfer(transfer);
fpi_ssm_mark_failed(ssm, r);
}
fpi_usb_transfer_fill_bulk(transfer, self->ep_in,
IMAGE_SIZE);
transfer->ssm = ssm;
transfer->short_is_error = TRUE;
fpi_usb_transfer_submit(transfer, BULK_TIMEOUT, NULL,
capture_read_data_cb, NULL);
fpi_usb_transfer_unref(transfer);
}
break;
};
}
static void capture_sm_complete(fpi_ssm *ssm, struct fp_dev *_dev, void *user_data)
static void capture_sm_complete(FpiSsm *ssm, FpDevice *_dev, void *user_data,
GError *error)
{
struct fp_img_dev *dev = user_data;
struct upektc_dev *upekdev = FP_INSTANCE_DATA(_dev);
FpImageDevice *dev = user_data;
FpiDeviceUpektc *self = FPI_DEVICE_UPEKTC(_dev);
fp_dbg("Capture completed");
if (upekdev->deactivating)
complete_deactivation(dev);
else if (fpi_ssm_get_error(ssm))
fpi_imgdev_session_error(dev, fpi_ssm_get_error(ssm));
if (self->deactivating)
complete_deactivation(dev, error);
else if (error)
fpi_image_device_session_error(dev, error);
else
start_finger_detection(dev);
fpi_ssm_free(ssm);
}
static void start_capture(struct fp_img_dev *dev)
static void start_capture(FpImageDevice *dev)
{
struct upektc_dev *upekdev = FP_INSTANCE_DATA(FP_DEV(dev));
fpi_ssm *ssm;
FpiDeviceUpektc *self = FPI_DEVICE_UPEKTC(dev);
FpiSsm *ssm;
if (upekdev->deactivating) {
complete_deactivation(dev);
if (self->deactivating) {
complete_deactivation(dev, NULL);
return;
}
ssm = fpi_ssm_new(FP_DEV(dev), capture_run_state, CAPTURE_NUM_STATES, dev);
ssm = fpi_ssm_new(FP_DEVICE(dev), capture_run_state,
CAPTURE_NUM_STATES, dev);
G_DEBUG_HERE();
fpi_ssm_start(ssm, capture_sm_complete);
}
static int dev_activate(struct fp_img_dev *dev)
static void dev_activate(FpImageDevice *dev)
{
struct upektc_dev *upekdev = FP_INSTANCE_DATA(FP_DEV(dev));
fpi_ssm *ssm = fpi_ssm_new(FP_DEV(dev), activate_run_state,
FpiDeviceUpektc *self = FPI_DEVICE_UPEKTC(dev);
FpiSsm *ssm = fpi_ssm_new(FP_DEVICE(dev), activate_run_state,
ACTIVATE_NUM_STATES, dev);
upekdev->init_idx = 0;
self->init_idx = 0;
fpi_ssm_start(ssm, activate_sm_complete);
return 0;
}
static void dev_deactivate(struct fp_img_dev *dev)
static void dev_deactivate(FpImageDevice *dev)
{
struct upektc_dev *upekdev = FP_INSTANCE_DATA(FP_DEV(dev));
FpiDeviceUpektc *self = FPI_DEVICE_UPEKTC(dev);
upekdev->deactivating = TRUE;
self->deactivating = TRUE;
}
static void complete_deactivation(struct fp_img_dev *dev)
static void complete_deactivation(FpImageDevice *dev, GError *error)
{
struct upektc_dev *upekdev = FP_INSTANCE_DATA(FP_DEV(dev));
FpiDeviceUpektc *self = FPI_DEVICE_UPEKTC(dev);
G_DEBUG_HERE();
upekdev->deactivating = FALSE;
fpi_imgdev_deactivate_complete(dev);
self->deactivating = FALSE;
fpi_image_device_deactivate_complete(dev, error);
}
static int dev_init(struct fp_img_dev *dev, unsigned long driver_data)
static void dev_init(FpImageDevice *dev)
{
/* TODO check that device has endpoints we're using */
int r;
struct upektc_dev *upekdev;
GError *error = NULL;
FpiDeviceUpektc *self = FPI_DEVICE_UPEKTC(dev);
guint64 driver_data = fpi_device_get_driver_data (FP_DEVICE (dev));
r = libusb_claim_interface(fpi_dev_get_usb_dev(FP_DEV(dev)), 0);
if (r < 0) {
fp_err("could not claim interface 0: %s", libusb_error_name(r));
return r;
/* TODO check that device has endpoints we're using */
if (!g_usb_device_claim_interface(fpi_device_get_usb_device(FP_DEVICE(dev)), 0, 0, &error)) {
fpi_image_device_open_complete(dev, error);
return;
}
upekdev = g_malloc0(sizeof(struct upektc_dev));
fp_dev_set_instance_data(FP_DEV(dev), upekdev);
switch (driver_data) {
case UPEKTC_2015:
upekdev->ep_in = UPEKTC_EP_IN;
upekdev->ep_out = UPEKTC_EP_OUT;
upekdev->setup_commands = upektc_setup_commands;
upekdev->setup_commands_len = G_N_ELEMENTS(upektc_setup_commands);
upekdev->sum_threshold = UPEKTC_SUM_THRESHOLD;
self->ep_in = UPEKTC_EP_IN;
self->ep_out = UPEKTC_EP_OUT;
self->setup_commands = upektc_setup_commands;
self->setup_commands_len = G_N_ELEMENTS(upektc_setup_commands);
self->sum_threshold = UPEKTC_SUM_THRESHOLD;
break;
case UPEKTC_3001:
upekdev->ep_in = UPEKET_EP_IN;
upekdev->ep_out = UPEKET_EP_OUT;
upekdev->setup_commands = upeket_setup_commands;
upekdev->setup_commands_len = G_N_ELEMENTS(upeket_setup_commands);
upekdev->sum_threshold = UPEKET_SUM_THRESHOLD;
self->ep_in = UPEKET_EP_IN;
self->ep_out = UPEKET_EP_OUT;
self->setup_commands = upeket_setup_commands;
self->setup_commands_len = G_N_ELEMENTS(upeket_setup_commands);
self->sum_threshold = UPEKET_SUM_THRESHOLD;
break;
default:
fp_err("Device variant %lu is not known\n", driver_data);
g_free(upekdev);
fp_dev_set_instance_data(FP_DEV(dev), NULL);
return -ENODEV;
break;
g_assert_not_reached ();
fpi_image_device_open_complete(dev, fpi_device_error_new (FP_DEVICE_ERROR_GENERAL));
return;
}
fpi_imgdev_open_complete(dev, 0);
return 0;
fpi_image_device_open_complete(dev, NULL);
}
static void dev_deinit(struct fp_img_dev *dev)
static void dev_deinit(FpImageDevice *dev)
{
void *user_data;
user_data = FP_INSTANCE_DATA(FP_DEV(dev));
g_free(user_data);
libusb_release_interface(fpi_dev_get_usb_dev(FP_DEV(dev)), 0);
fpi_imgdev_close_complete(dev);
GError *error = NULL;
g_usb_device_release_interface(fpi_device_get_usb_device(FP_DEVICE(dev)),
0, 0, &error);
fpi_image_device_close_complete(dev, error);
}
static const struct usb_id id_table[] = {
{ .vendor = 0x0483, .product = 0x2015, .driver_data = UPEKTC_2015 },
{ .vendor = 0x147e, .product = 0x3001, .driver_data = UPEKTC_3001 },
{ 0, 0, 0, },
static const FpIdEntry id_table [ ] = {
{ .vid = 0x0483, .pid = 0x2015, .driver_data = UPEKTC_2015 },
{ .vid = 0x147e, .pid = 0x3001, .driver_data = UPEKTC_3001 },
{ .vid = 0, .pid = 0, .driver_data = 0 },
};
struct fp_img_driver upektc_driver = {
.driver = {
.id = UPEKTC_ID,
.name = FP_COMPONENT,
.full_name = "UPEK TouchChip/Eikon Touch 300",
.id_table = id_table,
.scan_type = FP_SCAN_TYPE_PRESS,
},
.flags = 0,
.img_height = IMAGE_HEIGHT,
.img_width = IMAGE_WIDTH,
static void fpi_device_upektc_init(FpiDeviceUpektc *self) {
}
static void fpi_device_upektc_class_init(FpiDeviceUpektcClass *klass) {
FpDeviceClass *dev_class = FP_DEVICE_CLASS(klass);
FpImageDeviceClass *img_class = FP_IMAGE_DEVICE_CLASS(klass);
.bz3_threshold = 30,
.open = dev_init,
.close = dev_deinit,
.activate = dev_activate,
.deactivate = dev_deactivate,
};
dev_class->id = "upektc";
dev_class->full_name = "UPEK TouchChip/Eikon Touch 300";
dev_class->type = FP_DEVICE_TYPE_USB;
dev_class->id_table = id_table;
dev_class->scan_type = FP_SCAN_TYPE_PRESS;
img_class->img_open = dev_init;
img_class->img_close = dev_deinit;
img_class->activate = dev_activate;
img_class->deactivate = dev_deactivate;
img_class->bz3_threshold = 30;
img_class->img_width = IMAGE_WIDTH;
img_class->img_height = IMAGE_HEIGHT;
}

View file

@ -52,7 +52,7 @@ mathlib_dep = cc.find_library('m', required: false)
drivers = get_option('drivers').split(',')
virtual_drivers = [ 'virtual_image' ]
#default_drivers = [ 'upekts', 'upektc', 'upeksonly', 'vcom5s', 'uru4000', 'aes1610', 'aes1660', 'aes2501', 'aes2550', 'aes2660', 'aes3500', 'aes4000', 'vfs101', 'vfs301', 'vfs5011', 'upektc_img', 'etes603', 'vfs0050', 'elan' ]
default_drivers = [ 'upektc_img', 'vfs5011', 'aes3500', 'aes4000', 'aes1610', 'aes1660', 'aes2660', 'aes2501', 'aes2550', 'vfs101', 'vfs301', 'vfs0050', 'etes603', 'vcom5s', 'synaptics', 'elan', 'uru4000']
default_drivers = [ 'upektc_img', 'vfs5011', 'aes3500', 'aes4000', 'aes1610', 'aes1660', 'aes2660', 'aes2501', 'aes2550', 'vfs101', 'vfs301', 'vfs0050', 'etes603', 'vcom5s', 'synaptics', 'elan', 'uru4000', 'upektc']
all_drivers = default_drivers + virtual_drivers