// Files containing GPIO and PWM definitions
#include "bbb_pin.h"
-
-
-
/** Number of actuators **/
int g_num_actuators = 0;
a->name = name;
a->set = set; // Set read function
a->init = init; // Set init function
- if (init != NULL)
- init(name, user_id); // Call it
- a->sanity = sanity;
+ a->sanity = sanity;
+ a->cleanup = cleanup;
pthread_mutex_init(&(a->mutex), NULL);
+ if (init != NULL)
+ {
+ if (!init(name, user_id))
+ Fatal("Couldn't initialise actuator %s", name);
+ }
+
Actuator_SetValue(a, initial_value, false);
return g_num_actuators;
/**
- * One off initialisation of *all* Actuators
+ * Initialisation of *all* Actuators
*/
-#include "actuators/ledtest.h"
-#include "actuators/filetest.h"
+#include "actuators/pregulator.h"
+#include "actuators/relays.h"
void Actuator_Init()
{
//Actuator_Add("ledtest",0, Ledtest_Set, NULL,NULL,NULL);
- Actuator_Add("filetest", 0, Filetest_Set, Filetest_Init, Filetest_Cleanup, Filetest_Sanity, 0);
+ //Actuator_Add("filetest", 0, Filetest_Set, Filetest_Init, Filetest_Cleanup, Filetest_Sanity, 0);
+ Actuator_Add("pregulator", 0, Pregulator_Set, Pregulator_Init, Pregulator_Cleanup, Pregulator_Sanity, 0);
+ Actuator_Add("can_select", RELAY_CANSELECT, Relay_Set, Relay_Init, Relay_Cleanup, Relay_Sanity, 0);
+ Actuator_Add("can_enable", RELAY_CANENABLE, Relay_Set, Relay_Init, Relay_Cleanup, Relay_Sanity, 0);
+ Actuator_Add("main_pressure", RELAY_MAIN, Relay_Set, Relay_Init, Relay_Cleanup, Relay_Sanity, 1);
}
+/**
+ * Deinitialise actuators
+ */
+void Actuator_Cleanup()
+{
+ for (int i = 0; i < g_num_actuators; ++i)
+ {
+ Actuator * a = g_actuators+i;
+ if (a->cleanup != NULL)
+ a->cleanup(a->user_id);
+ }
+ g_num_actuators = 0;
+}
+
+
/**
* Sets the actuator to the desired mode. No checks are
* done to see if setting to the desired mode will conflict with
{
case CONTROL_START:
{
+ // Set filename
char filename[BUFSIZ];
- const char *experiment_name = (const char*) arg;
+ const char *experiment_path = (const char*) arg;
+ int ret;
+
+ ret = snprintf(filename, BUFSIZ, "%s/actuator_%d", experiment_path, a->id);
- if (snprintf(filename, BUFSIZ, "%s_a%d", experiment_name, a->id) >= BUFSIZ)
+ if (ret >= BUFSIZ)
{
- Fatal("Experiment name \"%s\" too long (>%d)", experiment_name, BUFSIZ);
+ Fatal("Experiment path \"%s\" too long (%d, limit %d)",
+ experiment_path, ret, BUFSIZ);
}
Log(LOGDEBUG, "Actuator %d with DataFile \"%s\"", a->id, filename);
*/
void Actuator_SetModeAll(ControlModes mode, void * arg)
{
- for (int i = 0; i < ACTUATORS_MAX; i++)
+ if (mode == CONTROL_START)
+ Actuator_Init();
+ for (int i = 0; i < g_num_actuators; i++)
Actuator_SetMode(&g_actuators[i], mode, arg);
+ if (mode == CONTROL_STOP)
+ Actuator_Cleanup();
}
/**
Actuator_SetValue(a, a->control.start, true);
// Currently does discrete steps after specified time intervals
+
+ struct timespec wait;
+ DOUBLE_TO_TIMEVAL(a->control.stepwait, &wait);
while (!a->control_changed && a->control.steps > 0 && a->activated)
{
- usleep(1e6*(a->control.stepwait));
+ clock_nanosleep(CLOCK_MONOTONIC, 0, &wait, NULL);
a->control.start += a->control.stepsize;
Actuator_SetValue(a, a->control.start, true);
}
if (a->control_changed)
continue;
- usleep(1e6*(a->control.stepwait));
+ clock_nanosleep(CLOCK_MONOTONIC, 0, &wait, NULL);
//TODO:
// Note that although this loop has a sleep in it which would seem to make it hard to enforce urgent shutdowns,
}
// Set time stamp
- struct timeval t;
- gettimeofday(&t, NULL);
+ struct timespec t;
+ clock_gettime(CLOCK_MONOTONIC, &t);
DataPoint d = {TIMEVAL_DIFF(t, *Control_GetStartTime()), a->last_setting.value};
// Record value change
if (record)
*/
void Actuator_Handler(FCGIContext * context, char * params)
{
- struct timeval now;
- gettimeofday(&now, NULL);
+ struct timespec now;
+ clock_gettime(CLOCK_MONOTONIC, &now);
double current_time = TIMEVAL_DIFF(now, *Control_GetStartTime());
int id = 0;
char * name = "";
ActuatorControl c = {0.0, 0.0, 0.0, 0}; // Need to set default values (since we don't require them all)
// sscanf returns the number of fields successfully read...
- int n = sscanf(set, "%lf,%lf,%lf,%d", &(c.start), &(c.stepwait), &(c.stepsize), &(c.steps)); // Set provided values in order
+ int n = sscanf(set, "%lf_%lf_%lf_%d", &(c.start), &(c.stepwait), &(c.stepsize), &(c.steps)); // Set provided values in order
if (n != 4)
{
// If the user doesn't provide all 4 values, the Actuator will get set *once* using the first of the provided values
}
return NULL;
}
+
+DataPoint Actuator_LastData(int id)
+{
+ Actuator * a = &(g_actuators[id]);
+ return a->last_setting;
+}