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|
/* Copyright (C) 2011, 2012 Matthias Vogelgesang <matthias.vogelgesang@kit.edu>
(Karlsruhe Institute of Technology)
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 St, Fifth Floor, Boston, MA 02110, USA */
#include <gio/gio.h>
#include <gmodule.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <pcilib.h>
#include <errno.h>
#include <math.h>
#include "uca-camera.h"
#include "uca-ufo-camera.h"
#define PCILIB_SET_ERROR(err, err_type) \
if (err != 0) { \
g_set_error(error, UCA_UFO_CAMERA_ERROR, \
err_type, \
"%s:%i pcilib: %s (errcode = %d)", \
__FILE__, __LINE__, strerror(err), err);\
return; \
}
#define PCILIB_SET_ERROR_RETURN_FALSE(err, err_type) \
if (err != 0) { \
g_set_error(error, UCA_UFO_CAMERA_ERROR, \
err_type, \
"%s:%i pcilib: %s (errcode = %d)", \
__FILE__, __LINE__, strerror(err), err);\
return FALSE; \
}
#define PCILIB_WARN_ON_ERROR(err) \
if (err != 0) { \
g_warning ("%s:%i pcilib: %s (errcode = %d)", \
__FILE__, __LINE__, strerror(err), err); \
}
#define UCA_UFO_CAMERA_GET_PRIVATE(obj) (G_TYPE_INSTANCE_GET_PRIVATE((obj), UCA_TYPE_UFO_CAMERA, UcaUfoCameraPrivate))
static void uca_ufo_camera_initable_iface_init (GInitableIface *iface);
G_DEFINE_TYPE_WITH_CODE (UcaUfoCamera, uca_ufo_camera, UCA_TYPE_CAMERA,
G_IMPLEMENT_INTERFACE (G_TYPE_INITABLE,
uca_ufo_camera_initable_iface_init))
static const guint SENSOR_WIDTH = 2048;
static const gdouble EXPOSURE_TIME_SCALE = 2.69e6;
/**
* UcaUfoCameraError:
* @UCA_UFO_CAMERA_ERROR_INIT: Initializing pcilib failed
* @UCA_UFO_CAMERA_ERROR_START_RECORDING: Starting failed
* @UCA_UFO_CAMERA_ERROR_STOP_RECORDING: Stopping failed
* @UCA_UFO_CAMERA_ERROR_TRIGGER: Triggering a frame failed
* @UCA_UFO_CAMERA_ERROR_NEXT_EVENT: No event happened
* @UCA_UFO_CAMERA_ERROR_NO_DATA: No data was transmitted
* @UCA_UFO_CAMERA_ERROR_MAYBE_CORRUPTED: Data is potentially corrupted
*/
GQuark uca_ufo_camera_error_quark()
{
return g_quark_from_static_string("uca-ufo-camera-error-quark");
}
enum {
PROP_SENSOR_TEMPERATURE = N_BASE_PROPERTIES,
PROP_FPGA_TEMPERATURE,
PROP_UFO_START,
N_MAX_PROPERTIES = 512
};
static gint base_overrideables[] = {
PROP_NAME,
PROP_SENSOR_WIDTH,
PROP_SENSOR_HEIGHT,
PROP_SENSOR_BITDEPTH,
PROP_EXPOSURE_TIME,
PROP_FRAMES_PER_SECOND,
PROP_ROI_X,
PROP_ROI_Y,
PROP_ROI_WIDTH,
PROP_ROI_HEIGHT,
PROP_HAS_STREAMING,
PROP_HAS_CAMRAM_RECORDING,
0,
};
typedef struct _RegisterInfo {
gchar *name;
guint cached_value;
} RegisterInfo;
static GParamSpec *ufo_properties[N_MAX_PROPERTIES] = { NULL, };
static guint N_PROPERTIES;
struct _UcaUfoCameraPrivate {
GError *construct_error;
GHashTable *property_table; /* maps from prop_id to RegisterInfo* */
GThread *async_thread;
pcilib_t *handle;
pcilib_timeout_t timeout;
guint n_bits;
guint height;
enum {
FPGA_48MHZ = 0,
FPGA_40MHZ
} frequency;
};
static void
error_handler (const char *format, ...)
{
va_list args;
gchar *message;
va_start (args, format);
message = g_strdup_vprintf (format, args);
g_warning ("%s", message);
va_end (args);
}
static guint
read_register_value (pcilib_t *handle, const gchar *name)
{
pcilib_register_value_t reg_value;
int err;
err = pcilib_read_register(handle, NULL, name, ®_value);
PCILIB_WARN_ON_ERROR (err);
return (guint) reg_value;
}
static int
event_callback(pcilib_event_id_t event_id, pcilib_event_info_t *info, void *user)
{
UcaCamera *camera = UCA_CAMERA(user);
UcaUfoCameraPrivate *priv = UCA_UFO_CAMERA_GET_PRIVATE(camera);
size_t error = 0;
void *buffer = pcilib_get_data(priv->handle, event_id, PCILIB_EVENT_DATA, &error);
if (buffer == NULL)
return PCILIB_STREAMING_CONTINUE;
camera->grab_func (buffer, camera->user_data);
pcilib_return_data (priv->handle, event_id, PCILIB_EVENT_DATA, buffer);
return PCILIB_STREAMING_CONTINUE;
}
static gdouble
total_readout_time (UcaUfoCamera *camera)
{
gdouble clock_period_ns;
gdouble exposure_time;
gdouble readout_time;
gdouble overhead_time;
guint output_mode;
guint roi_height;
guint num_outputs;
g_object_get (G_OBJECT (camera),
"exposure-time", &exposure_time,
"ufo-cmosis-output-mode", &output_mode,
"roi-height", &roi_height,
NULL);
num_outputs = camera->priv->n_bits == 10 ? 16 : 4; /* what about 11? */
clock_period_ns = camera->priv->frequency == FPGA_40MHZ ? 1 / 40.0 * 1000 : 1 / 48.0 * 1000;
exposure_time *= 1000 * 1000; /* convert to nanoseconds */
readout_time = (129 * clock_period_ns * 16 / num_outputs) * roi_height;
overhead_time = (7 /* reg73 */ + 2 * (16 / num_outputs)) * 129 * clock_period_ns;
return exposure_time + (overhead_time + readout_time) / 1000 / 1000;
}
static guint
update_properties (UcaUfoCameraPrivate *priv)
{
guint prop;
pcilib_model_description_t *description;
prop = PROP_UFO_START;
description = pcilib_get_model_description (priv->handle);
for (guint i = 0; description->registers[i].name != NULL; i++) {
GParamFlags flags = 0;
RegisterInfo *reg_info;
gchar *prop_name;
pcilib_register_description_t *reg;
pcilib_register_value_t value;
gint err;
reg = &description->registers[i];
switch (reg->mode) {
case PCILIB_REGISTER_R:
flags = G_PARAM_READABLE;
break;
case PCILIB_REGISTER_W:
case PCILIB_REGISTER_W1C:
flags = G_PARAM_WRITABLE;
break;
case PCILIB_REGISTER_RW:
case PCILIB_REGISTER_RW1C:
flags = G_PARAM_READWRITE;
break;
}
err = pcilib_read_register (priv->handle, NULL, reg->name, &value);
PCILIB_WARN_ON_ERROR (err);
reg_info = g_new0 (RegisterInfo, 1);
reg_info->name = g_strdup (reg->name);
reg_info->cached_value = (guint32) value;
g_hash_table_insert (priv->property_table, GINT_TO_POINTER (prop), reg_info);
prop_name = g_strdup_printf ("ufo-%s", reg->name);
ufo_properties[prop++] = g_param_spec_uint (
prop_name, reg->description, reg->description,
0, G_MAXUINT, reg->defvalue, flags);
g_free (prop_name);
}
return prop;
}
static gboolean
setup_pcilib (UcaUfoCameraPrivate *priv)
{
pcilib_model_t model;
guint adc_resolution;
model = PCILIB_MODEL_DETECT;
priv->handle = pcilib_open("/dev/fpga0", model);
if (priv->handle == NULL) {
g_set_error (&priv->construct_error,
UCA_UFO_CAMERA_ERROR, UCA_UFO_CAMERA_ERROR_INIT,
"Initializing pcilib failed");
return FALSE;
}
pcilib_set_error_handler (&error_handler, &error_handler);
priv->property_table = g_hash_table_new_full (g_direct_hash, g_direct_equal,
NULL, g_free);
N_PROPERTIES = update_properties (priv);
priv->height = read_register_value (priv->handle, "cmosis_number_lines") + 1;
priv->frequency = read_register_value (priv->handle, "control") >> 31;
adc_resolution = read_register_value (priv->handle, "adc_resolution");
switch (adc_resolution) {
case 0:
priv->n_bits = 10;
break;
case 1:
priv->n_bits = 11;
break;
case 2:
priv->n_bits = 12;
break;
}
return TRUE;
}
static void
set_control_bit (UcaUfoCameraPrivate *priv, guint bit, gboolean set)
{
static const gchar *name = "control";
pcilib_register_value_t flags;
pcilib_register_value_t mask;
gint err;
err = pcilib_read_register (priv->handle, NULL, name, &flags);
PCILIB_WARN_ON_ERROR (err);
mask = 1 << bit;
if (set)
flags |= mask;
else
flags = flags & ~mask;
err = pcilib_write_register(priv->handle, NULL, name, flags);
PCILIB_WARN_ON_ERROR (err);
}
static void
set_streaming (UcaUfoCameraPrivate *priv, gboolean enable)
{
set_control_bit (priv, 11, enable);
}
static gpointer
stream_async (UcaCamera *camera)
{
UcaUfoCameraPrivate *priv;
priv = UCA_UFO_CAMERA_GET_PRIVATE (camera);
pcilib_stream (priv->handle, &event_callback, camera);
return NULL;
}
static void
uca_ufo_camera_start_recording(UcaCamera *camera, GError **error)
{
UcaUfoCameraPrivate *priv;
UcaCameraTrigger trigger;
gdouble exposure_time;
gboolean transfer_async;
int err;
g_return_if_fail(UCA_IS_UFO_CAMERA(camera));
priv = UCA_UFO_CAMERA_GET_PRIVATE(camera);
g_object_get (G_OBJECT(camera),
"transfer-asynchronously", &transfer_async,
"exposure-time", &exposure_time,
"trigger-mode", &trigger,
NULL);
err = pcilib_start(priv->handle, PCILIB_EVENT_DATA, PCILIB_EVENT_FLAGS_DEFAULT);
PCILIB_SET_ERROR(err, UCA_UFO_CAMERA_ERROR_START_RECORDING);
set_streaming (priv, trigger == UCA_CAMERA_TRIGGER_AUTO);
priv->timeout = (pcilib_timeout_t) (total_readout_time (UCA_UFO_CAMERA (camera)) * 1000 * 1000);
if (transfer_async)
priv->async_thread = g_thread_create ((GThreadFunc) stream_async, camera, TRUE, error);
}
static void
uca_ufo_camera_stop_recording(UcaCamera *camera, GError **error)
{
UcaUfoCameraPrivate *priv;
UcaCameraTrigger trigger;
g_return_if_fail(UCA_IS_UFO_CAMERA(camera));
priv = UCA_UFO_CAMERA_GET_PRIVATE(camera);
g_object_get (G_OBJECT (camera), "trigger-mode", &trigger, NULL);
if (priv->async_thread) {
int err = pcilib_stop(priv->handle, PCILIB_EVENT_FLAG_STOP_ONLY);
PCILIB_SET_ERROR(err, UCA_UFO_CAMERA_ERROR_STOP_RECORDING);
g_thread_join(priv->async_thread);
priv->async_thread = NULL;
}
int err = pcilib_stop (priv->handle, PCILIB_EVENT_FLAGS_DEFAULT);
PCILIB_SET_ERROR(err, UCA_UFO_CAMERA_ERROR_STOP_RECORDING);
set_streaming (priv, trigger != UCA_CAMERA_TRIGGER_AUTO);
}
static void
uca_ufo_camera_start_readout(UcaCamera *camera, GError **error)
{
g_return_if_fail(UCA_IS_UFO_CAMERA(camera));
}
static void
uca_ufo_camera_stop_readout(UcaCamera *camera, GError **error)
{
g_return_if_fail(UCA_IS_UFO_CAMERA(camera));
}
static gboolean
uca_ufo_camera_grab(UcaCamera *camera, gpointer data, GError **error)
{
g_return_val_if_fail (UCA_IS_UFO_CAMERA(camera), FALSE);
UcaUfoCameraPrivate *priv = UCA_UFO_CAMERA_GET_PRIVATE(camera);
pcilib_event_id_t event_id;
pcilib_event_info_t event_info;
int err;
const gsize size = SENSOR_WIDTH * priv->height * sizeof(guint16);
err = pcilib_get_next_event (priv->handle, priv->timeout, &event_id, sizeof(pcilib_event_info_t), &event_info);
PCILIB_SET_ERROR_RETURN_FALSE (err, UCA_UFO_CAMERA_ERROR_NEXT_EVENT);
gpointer src = pcilib_get_data (priv->handle, event_id, PCILIB_EVENT_DATA, (size_t *) &err);
if (src == NULL)
PCILIB_SET_ERROR_RETURN_FALSE (err, UCA_UFO_CAMERA_ERROR_NO_DATA);
/*
* Apparently, we checked that err equals total size in previous version.
* This is problematic because errno is positive and size could be equal
* even when an error condition is met, e.g. with a very small ROI. However,
* we don't know if src will always be NULL when an error occured.
*/
/* assert(err == size); */
memcpy (data, src, size);
/*
* Another problem here. What does this help us? At this point we have
* already overwritten the original buffer but can only know here if the
* data is corrupted.
*/
err = pcilib_return_data (priv->handle, event_id, PCILIB_EVENT_DATA, data);
PCILIB_SET_ERROR_RETURN_FALSE (err, UCA_UFO_CAMERA_ERROR_MAYBE_CORRUPTED);
return TRUE;
}
static void
uca_ufo_camera_trigger (UcaCamera *camera, GError **error)
{
UcaUfoCameraPrivate *priv;
g_return_if_fail (UCA_IS_UFO_CAMERA(camera));
priv = UCA_UFO_CAMERA_GET_PRIVATE(camera);
/* XXX: What is PCILIB_EVENT0? */
pcilib_trigger (priv->handle, PCILIB_EVENT0, 0, NULL);
}
static void
uca_ufo_camera_set_property(GObject *object, guint property_id, const GValue *value, GParamSpec *pspec)
{
g_return_if_fail (UCA_IS_UFO_CAMERA (object));
UcaUfoCameraPrivate *priv = UCA_UFO_CAMERA_GET_PRIVATE (object);
if (uca_camera_is_recording (UCA_CAMERA (object)) && !uca_camera_is_writable_during_acquisition (UCA_CAMERA (object), pspec->name)) {
g_warning ("Property '%s' cant be changed during acquisition", pspec->name);
return;
}
switch (property_id) {
case PROP_EXPOSURE_TIME:
{
const guint frequency = priv->frequency == FPGA_40MHZ ? 40 : 48;
const gdouble user_exposure_time = g_value_get_double(value);
gint err;
pcilib_register_value_t reg_value = (pcilib_register_value_t) (1e6 * user_exposure_time * frequency / 129.0 - 0.43 * 10);
err = pcilib_write_register(priv->handle, NULL, "cmosis_exp_time", reg_value);
PCILIB_WARN_ON_ERROR (err);
}
break;
case PROP_FRAMES_PER_SECOND:
{
gdouble readout_time;
gdouble frame_period;
guint32 trigger_period;
frame_period = 1.0 / g_value_get_double (value);
readout_time = total_readout_time (UCA_UFO_CAMERA (object));
if (frame_period < readout_time) {
g_warning ("Frame period higher than readout time %f\n", readout_time);
break;
}
trigger_period = (guint32) ((frame_period - readout_time) / (8.0 * 1e-9));
g_object_set (object, "ufo-trigger-period", trigger_period, NULL);
}
break;
case PROP_ROI_X:
case PROP_ROI_Y:
case PROP_ROI_WIDTH:
case PROP_ROI_HEIGHT:
g_debug("ROI feature not implemented yet");
break;
default:
{
RegisterInfo *reg_info;
reg_info = g_hash_table_lookup (priv->property_table,
GINT_TO_POINTER (property_id));
if (reg_info != NULL) {
pcilib_register_value_t reg_value = 0;
gint err;
reg_value = g_value_get_uint (value);
err = pcilib_write_register (priv->handle, NULL, reg_info->name, reg_value);
PCILIB_WARN_ON_ERROR (err);
err = pcilib_read_register (priv->handle, NULL, reg_info->name, ®_value);
PCILIB_WARN_ON_ERROR (err);
reg_info->cached_value = (guint) reg_value;
}
else
G_OBJECT_WARN_INVALID_PROPERTY_ID(object, property_id, pspec);
}
return;
}
}
static void
uca_ufo_camera_get_property(GObject *object, guint property_id, GValue *value, GParamSpec *pspec)
{
UcaUfoCameraPrivate *priv = UCA_UFO_CAMERA_GET_PRIVATE(object);
switch (property_id) {
case PROP_SENSOR_WIDTH:
g_value_set_uint (value, SENSOR_WIDTH);
break;
case PROP_SENSOR_HEIGHT:
g_value_set_uint (value, priv->height);
break;
case PROP_SENSOR_BITDEPTH:
g_value_set_uint (value, priv->n_bits);
break;
case PROP_SENSOR_TEMPERATURE:
{
const double a = priv->frequency == FPGA_48MHZ ? 0.3 : 0.25;
const double b = priv->frequency == FPGA_48MHZ ? 1000 : 1200;
guint32 temperature;
temperature = read_register_value (priv->handle, "sensor_temperature");
g_value_set_double (value, a * (temperature - b));
}
break;
case PROP_FPGA_TEMPERATURE:
{
const double a = 503.975 / 1024.0;
const double b = 273.15;
guint32 temperature;
temperature = read_register_value (priv->handle, "fpga_temperature");
g_value_set_double (value, a * temperature - b);
}
break;
case PROP_EXPOSURE_TIME:
{
const gdouble frequency = priv->frequency == FPGA_40MHZ ? 40.0 : 48.0;
g_value_set_double (value, (read_register_value (priv->handle, "cmosis_exp_time") + 0.43 * 10) * 129.0 / frequency / 1e6);
}
break;
case PROP_FRAMES_PER_SECOND:
{
gdouble delay_time;
gdouble framerate;
guint32 trigger_period;
g_object_get (object, "ufo-trigger-period", &trigger_period, NULL);
delay_time = trigger_period * 8.0 * 1e-9;
framerate = 1.0 / (total_readout_time (UCA_UFO_CAMERA (object)) + delay_time);
g_value_set_double(value, framerate);
}
break;
case PROP_HAS_STREAMING:
g_value_set_boolean (value, TRUE);
break;
case PROP_HAS_CAMRAM_RECORDING:
g_value_set_boolean (value, FALSE);
break;
case PROP_ROI_X:
g_value_set_uint (value, 0);
break;
case PROP_ROI_Y:
g_value_set_uint (value, 0);
break;
case PROP_ROI_WIDTH:
g_value_set_uint (value, SENSOR_WIDTH);
break;
case PROP_ROI_HEIGHT:
g_value_set_uint (value, priv->height);
break;
case PROP_NAME:
g_value_set_string (value, "Ufo Camera w/ CMOSIS CMV2000");
break;
default:
{
RegisterInfo *reg_info = g_hash_table_lookup (priv->property_table, GINT_TO_POINTER (property_id));
if (reg_info != NULL)
g_value_set_uint (value, reg_info->cached_value);
else
G_OBJECT_WARN_INVALID_PROPERTY_ID(object, property_id, pspec);
}
break;
}
}
static void
uca_ufo_camera_finalize(GObject *object)
{
UcaUfoCameraPrivate *priv;
priv = UCA_UFO_CAMERA_GET_PRIVATE (object);
pcilib_close (priv->handle);
g_clear_error (&priv->construct_error);
G_OBJECT_CLASS (uca_ufo_camera_parent_class)->finalize (object);
}
static gboolean
ufo_ufo_camera_initable_init (GInitable *initable,
GCancellable *cancellable,
GError **error)
{
UcaUfoCamera *camera;
UcaUfoCameraPrivate *priv;
g_return_val_if_fail (UCA_IS_UFO_CAMERA (initable), FALSE);
if (cancellable != NULL) {
g_set_error_literal (error, G_IO_ERROR, G_IO_ERROR_NOT_SUPPORTED,
"Cancellable initialization not supported");
return FALSE;
}
camera = UCA_UFO_CAMERA (initable);
priv = camera->priv;
if (priv->construct_error != NULL) {
if (error)
*error = g_error_copy (priv->construct_error);
return FALSE;
}
return TRUE;
}
static void
uca_ufo_camera_initable_iface_init (GInitableIface *iface)
{
iface->init = ufo_ufo_camera_initable_init;
}
static void
uca_ufo_camera_class_init(UcaUfoCameraClass *klass)
{
GObjectClass *gobject_class = G_OBJECT_CLASS(klass);
gobject_class->set_property = uca_ufo_camera_set_property;
gobject_class->get_property = uca_ufo_camera_get_property;
gobject_class->finalize = uca_ufo_camera_finalize;
UcaCameraClass *camera_class = UCA_CAMERA_CLASS(klass);
camera_class->start_recording = uca_ufo_camera_start_recording;
camera_class->stop_recording = uca_ufo_camera_stop_recording;
camera_class->start_readout = uca_ufo_camera_start_readout;
camera_class->stop_readout = uca_ufo_camera_stop_readout;
camera_class->grab = uca_ufo_camera_grab;
camera_class->trigger = uca_ufo_camera_trigger;
for (guint i = 0; base_overrideables[i] != 0; i++)
g_object_class_override_property(gobject_class, base_overrideables[i], uca_camera_props[base_overrideables[i]]);
ufo_properties[PROP_SENSOR_TEMPERATURE] =
g_param_spec_double("sensor-temperature",
"Temperature of the sensor",
"Temperature of the sensor in degree Celsius",
-G_MAXDOUBLE, G_MAXDOUBLE, 0.0,
G_PARAM_READABLE);
ufo_properties[PROP_FPGA_TEMPERATURE] =
g_param_spec_double("fpga-temperature",
"Temperature of the FPGA",
"Temperature of the FPGA in degree Celsius",
-G_MAXDOUBLE, G_MAXDOUBLE, 0.0,
G_PARAM_READABLE);
g_type_class_add_private(klass, sizeof(UcaUfoCameraPrivate));
}
static void
uca_ufo_camera_init(UcaUfoCamera *self)
{
UcaCamera *camera;
UcaUfoCameraPrivate *priv;
GObjectClass *oclass;
self->priv = priv = UCA_UFO_CAMERA_GET_PRIVATE(self);
priv->construct_error = NULL;
priv->async_thread = NULL;
if (!setup_pcilib (priv))
return;
oclass = G_OBJECT_GET_CLASS (self);
for (guint id = N_BASE_PROPERTIES; id < N_PROPERTIES; id++)
g_object_class_install_property(oclass, id, ufo_properties[id]);
camera = UCA_CAMERA (self);
uca_camera_register_unit (camera, "sensor-temperature", UCA_UNIT_DEGREE_CELSIUS);
uca_camera_register_unit (camera, "fpga-temperature", UCA_UNIT_DEGREE_CELSIUS);
}
G_MODULE_EXPORT GType
uca_camera_get_type (void)
{
return UCA_TYPE_UFO_CAMERA;
}
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