#include "common.h"
#include "sensor.h"
#include "options.h"
+#include "bbb_pin.h"
#include <math.h>
/** Array of sensors, initialised by Sensor_Init **/
static Sensor g_sensors[NUMSENSORS]; //global to this file
+
+/** Array of sensor threshold structures defining the safety values of each sensor**/
+const SensorThreshold thresholds[NUMSENSORS]= {
+ //Max Safety, Min safety, Max warning, Min warning
+ {5000,0,5000,0},
+ {5000,0,5000,0},
+ {5000,0,5000,0},
+ {5000,0,5000,0},
+ {5000,0,5000,0},
+ {5000,0,5000,0},
+ {5000,0,5000,0},
+ {5000,0,5000,0},
+ {1, 1, 1, 1}
+};
+
+/** Human readable names for the sensors **/
const char * g_sensor_names[NUMSENSORS] = {
- "analog_test0", "analog_test1",
- "analog_fail0", "digital_test0",
- "digital_test1", "digital_fail0"
+ "strain0",
+ "strain1",
+ "strain2",
+ "strain3",
+ "pressure0",
+ "pressure1",
+ "pressure_feedback",
+ "microphone",
+ "enclosure"
};
/**
- * Checks the sensor data for unsafe or unexpected results
- * @param sensor_id - The ID of the sensor
- * @param value - The value of the sensor to check
+ * One off initialisation of *all* sensors
*/
-void CheckSensor( SensorId sensor_id, double value)
+void Sensor_Init()
{
- switch (sensor_id)
+ for (int i = 0; i < NUMSENSORS; ++i)
{
- case ANALOG_FAIL0:
- {
- if( value > ANALOG_FAIL0_SAFETY || value < ANALOG_FAIL0_MIN_SAFETY)
- {
- Log(LOGERR, "Sensor analog_fail0 is above or below its safety value of %d or %d\n", ANALOG_FAIL0_SAFETY, ANALOG_FAIL0_MIN_SAFETY);
- //new function that stops actuators?
- }
- else if( value > ANALOG_FAIL0_WARN || value < ANALOG_FAIL0_MIN_WARN)
- {
- Log(LOGWARN, "Sensor analog_test0 is above or below its warning value of %d or %d\n", ANALOG_FAIL0_WARN, ANALOG_FAIL0_MIN_WARN);
- }
- break;
- }
- case DIGITAL_FAIL0:
- {
- if( value != 0 && value != 1)
- {
- Log(LOGERR, "Sensor digital_fail0 is not 0 or 1\n");
- }
- break;
- }
- default:
- {
- //So it doesn't complain about the missing cases - in practice we will need all sensors to be checked as above, no need to include a default as we should only pass valid sensor_id's; unless for some reason we have a sensor we don't need to check (but then why would you pass to this function in the first place :P)
- }
+ g_sensors[i].id = i;
+ Data_Init(&(g_sensors[i].data_file));
}
+
+
+
+ // Get the required ADCs
+ ADC_Export(ADC0); // Strain gauges x 4
+ ADC_Export(ADC1); // Pressure sensor 1
+ ADC_Export(ADC2); // Pressure sensor 2
+ // ADC3 still unused (!?)
+ ADC_Export(ADC4); // Pressure regulator feedback(?) signal
+ ADC_Export(ADC5); // Microphone
+
+ // Get GPIO pins //TODO: Confirm pins used with Electronics Team
+ GPIO_Export(GPIO0_30); // Mux A (strain 1)
+ GPIO_Set(GPIO0_30, false);
+ GPIO_Export(GPIO1_28); // Mux B (strain 2)
+ GPIO_Set(GPIO1_28, false);
+ GPIO_Export(GPIO0_31); // Mux C (strain 3)
+ GPIO_Set(GPIO0_31, false);
+ GPIO_Export(GPIO1_16); // Mux D (strain 4)
+ GPIO_Set(GPIO1_16, false);
+
+ GPIO_Export(GPIO0_31); // Enclosure switch
}
/**
- * Read a data value from a sensor; block until value is read
- * @param sensor_id - The ID of the sensor
- * @param d - DataPoint to set
- * @returns NULL for digital sensors when data is unchanged, otherwise d
+ * Sets the sensor to the desired control mode. No checks are
+ * done to see if setting to the desired mode will conflict with
+ * the current mode - the caller must guarantee this itself.
+ * @param s The sensor whose mode is to be changed
+ * @param mode The mode to be changed to
+ * @param arg An argument specific to the mode to be set.
+ * e.g for CONTROL_START it represents the experiment name.
*/
-DataPoint * GetData(SensorId sensor_id, DataPoint * d)
+void Sensor_SetMode(Sensor * s, ControlModes mode, void * arg)
{
- // switch based on the sensor_id at the moment for testing;
- // might be able to just directly access ADC from sensor_id?
- //TODO: Implement for real sensors
+ switch(mode)
+ {
+ case CONTROL_START:
+ {
+ // Set filename
+ char filename[BUFSIZ];
+ const char *experiment_name = (const char*) arg;
-
- //TODO: We should ensure the time is *never* allowed to change on the server if we use gettimeofday
- // Another way people might think of getting the time is to count CPU cycles with clock()
- // But this will not work because a) CPU clock speed may change on some devices (RPi?) and b) It counts cycles used by all threads
-
- struct timeval t;
- gettimeofday(&t, NULL);
- d->time_stamp = (t.tv_sec - g_options.start_time.tv_sec) + 1e-6*(t.tv_usec - g_options.start_time.tv_usec);
+ if (snprintf(filename, BUFSIZ, "%s_s%d", experiment_name, s->id) >= BUFSIZ)
+ {
+ Fatal("Experiment name \"%s\" too long (>%d)", experiment_name, BUFSIZ);
+ }
- // Make time relative
- //d->time_stamp.tv_sec -= g_options.start_time.tv_sec;
- //d->time_stamp.tv_usec -= g_options.start_time.tv_usec;
-
- switch (sensor_id)
- {
- case ANALOG_TEST0:
- {
- static int count = 0;
- d->value = count++;
- break;
- }
- case ANALOG_TEST1:
- d->value = (double)(rand() % 100) / 100;
- break;
- case ANALOG_FAIL0:
- d->value = (double)(rand() % 6) * -( rand() % 2) / ( rand() % 100 + 1);
- //Gives a value between -5 and 5
- CheckSensor(sensor_id, d->value);
- break;
- //TODO: For digital sensors, consider only updating when sensor is actually changed
- case DIGITAL_TEST0:
- d->value = t.tv_sec % 2;
- break;
- case DIGITAL_TEST1:
- d->value = (t.tv_sec+1)%2;
- break;
- case DIGITAL_FAIL0:
- if( rand() % 100 > 98)
- d->value = 2;
- d->value = rand() % 2;
- //Gives 0 or 1 or a 2 every 1/100 times
- CheckSensor(sensor_id, d->value);
- break;
- default:
- Fatal("Unknown sensor id: %d", sensor_id);
- break;
- }
- usleep(100000); // simulate delay in sensor polling
+ Log(LOGDEBUG, "Sensor %d with DataFile \"%s\"", s->id, filename);
+ // Open DataFile
+ Data_Open(&(s->data_file), filename);
+ }
+ case CONTROL_RESUME: //Case fallthrough, no break before
+ {
+ int ret;
+ s->activated = true; // Don't forget this!
- return d;
+ // Create the thread
+ ret = pthread_create(&(s->thread), NULL, Sensor_Loop, (void*)(s));
+ if (ret != 0)
+ {
+ Fatal("Failed to create Sensor_Loop for Sensor %d", s->id);
+ }
+
+ Log(LOGDEBUG, "Resuming sensor %d", s->id);
+ }
+ break;
+
+ case CONTROL_EMERGENCY:
+ case CONTROL_PAUSE:
+ s->activated = false;
+ pthread_join(s->thread, NULL);
+ Log(LOGDEBUG, "Paused sensor %d", s->id);
+ break;
+
+ case CONTROL_STOP:
+ if (s->activated) //May have been paused before
+ {
+ s->activated = false;
+ pthread_join(s->thread, NULL);
+ }
+
+ Data_Close(&(s->data_file)); // Close DataFile
+ s->newest_data.time_stamp = 0;
+ s->newest_data.value = 0;
+ Log(LOGDEBUG, "Stopped sensor %d", s->id);
+ break;
+ default:
+ Fatal("Unknown control mode: %d", mode);
+ }
}
/**
- * Destroy a sensor
- * @param s - Sensor to destroy
+ * Sets all sensors to the desired mode.
+ * @see Sensor_SetMode for more information.
+ * @param mode The mode to be changed to
+ * @param arg An argument specific to the mode to be set.
*/
-void Destroy(Sensor * s)
+void Sensor_SetModeAll(ControlModes mode, void * arg)
{
- // Maybe move the binary file into long term file storage?
- fclose(s->file);
+ for (int i = 0; i < NUMSENSORS; i++)
+ Sensor_SetMode(&g_sensors[i], mode, arg);
}
-
/**
- * Initialise a sensor
- * @param s - Sensor to initialise
+ * Checks the sensor data for unsafe or unexpected results
+ * @param sensor_id - The ID of the sensor
+ * @param value - The value from the sensor to test
*/
-void Init(Sensor * s, int id)
+void Sensor_CheckData(SensorId id, double value)
{
- s->write_index = 0;
- s->id = id;
- s->points_written = 0;
- s->points_read = 0;
-
- #define FILENAMESIZE 3
- char filename[FILENAMESIZE];
- if (s->id >= pow(10, FILENAMESIZE))
+ if( value > thresholds[id].max_error || value < thresholds[id].min_error)
{
- Fatal("Too many sensors! FILENAMESIZE is %d; increase it and recompile.", FILENAMESIZE);
+ Log(LOGERR, "Sensor %s at %f is above or below its safety value of %f or %f\n", g_sensor_names[id],value, thresholds[id].max_error, thresholds[id].min_error);
+ //new function that stops actuators?
+ //Control_SetMode(CONTROL_EMERGENCY, NULL)
+ }
+ else if( value > thresholds[id].max_warn || value < thresholds[id].min_warn)
+ {
+ Log(LOGWARN, "Sensor %s at %f is above or below its warning value of %f or %f\n", g_sensor_names[id],value,thresholds[id].max_warn, thresholds[id].min_warn);
}
-
- pthread_mutex_init(&(s->mutex), NULL);
-
- sprintf(filename, "%d", s->id);
- unlink(filename); //TODO: Move old files somewhere
-
- s->file = fopen(filename, "a+b"); // open binary file
- Log(LOGDEBUG, "Initialised sensor %d; binary file is \"%s\"", id, filename);
}
/**
- * Run the main sensor polling loop
- * @param arg - Cast to Sensor* - Sensor that the thread will handle
- * @returns NULL (void* required to use the function with pthreads)
+ * Read a DataPoint from a Sensor; block until value is read
+ * @param id - The ID of the sensor
+ * @param d - DataPoint to set
+ * @returns True if the DataPoint was different from the most recently recorded.
*/
-void * Sensor_Main(void * arg)
+bool Sensor_Read(Sensor * s, DataPoint * d)
{
- Sensor * s = (Sensor*)(arg);
-
- while (Thread_Runstate() == RUNNING) //TODO: Exit condition
- {
- // The sensor will write data to a buffer until it is full
- // Then it will open a file and dump the buffer to the end of it.
- // Rinse and repeat
-
- // The reason I've added the buffer is because locks are expensive
- // But maybe it's better to just write data straight to the file
- // I'd like to do some tests by changing SENSOR_DATABUFSIZ
-
- while (s->write_index < SENSOR_DATABUFSIZ)
- {
- DataPoint * d = &(s->buffer[s->write_index]);
- if (GetData(s->id, d) == NULL)
- {
- Fatal("Error collecting data");
- }
- s->write_index += 1;
- }
+
- //Log(LOGDEBUG, "Filled buffer");
- // CRITICAL SECTION (no threads should be able to read/write the file at the same time)
- pthread_mutex_lock(&(s->mutex));
- //TODO: Valgrind complains about this fseek: "Syscall param write(buf) points to uninitialised byte(s)"
- // Not sure why, but we should find out and fix it.
- fseek(s->file, 0, SEEK_END);
- int amount_written = fwrite(s->buffer, sizeof(DataPoint), SENSOR_DATABUFSIZ, s->file);
- if (amount_written != SENSOR_DATABUFSIZ)
- {
- Fatal("Wrote %d data points and expected to write %d to \"%s\" - %s", amount_written, SENSOR_DATABUFSIZ, strerror(errno));
- }
- s->points_written += amount_written;
- //Log(LOGDEBUG, "Wrote %d data points for sensor %d", amount_written, s->id);
- pthread_mutex_unlock(&(s->mutex));
- // End of critical section
+ static bool result = true;
- s->write_index = 0; // reset position in buffer
-
- }
- Log(LOGDEBUG, "Thread for sensor %d exits", s->id);
- return NULL;
-}
+ //TODO: Remove this, code should be refactored to not use so many threads
+ // Although... if it works, it works...
+ static pthread_mutex_t mutex = PTHREAD_MUTEX_INITIALIZER;
-/**
- * Get position in a binary sensor file with a timestamp using a binary search
- * @param s - Sensor to use
- * @param time_stamp - Timestamp
- * @param count - If not NULL, used to provide number of searches required
- * @param found - If not NULL, set to the closest DataPoint
- * @returns Integer giving the *closest* index in the file
- * TODO: Refactor or replace?
- */
-int FindTime(Sensor * s, double time_stamp, int * count, DataPoint * found)
-{
- DataPoint d;
+ pthread_mutex_lock(&mutex); //TODO: Reduce the critical section
- int lower = 0;
- int upper = s->points_written - 1;
- int index = 0;
- if (count != NULL)
- *count = 0;
+ usleep(10);
- while (upper - lower > 1)
+ // Set time stamp
+ struct timeval t;
+ gettimeofday(&t, NULL);
+ d->time_stamp = TIMEVAL_DIFF(t, *Control_GetStartTime());
+
+ // Read value based on Sensor Id
+ int value; bool success = true;
+ //TODO: Can probably do this nicer than a switch (define a function pointer for each sensor)
+ // Can probably make the whole sensor thing a lot nicer with a linked list of sensors...
+ // (Then to add more sensors to the software, someone just writes an appropriate read function and calls Sensor_Add(...) at init)
+ // (I will do this. Don't do it before I get a chance, I don't trust you :P)
+ switch (s->id)
{
- index = lower + ((upper - lower)/2);
-
- // Basically anything with fseek is critical; if we don't make it critical the sensor thread may alter data at a random point in the file!
- // CRITICAL SECTION (May need to rethink how this is done, but I can't see how to do it without fseek :S)
- // Regarding the suggestion that we have 2 file pointers; one for reading and one for writing:
- // That seems like it will work... but we will have to be very careful and test it first
- pthread_mutex_lock(&s->mutex);
- fseek(s->file, index*sizeof(DataPoint), SEEK_SET);
- int amount_read = fread(&d, sizeof(DataPoint), 1, s->file);
- pthread_mutex_unlock(&s->mutex);
-
- if (amount_read != 1)
- {
- Fatal("Couldn't read single data point from sensor %d", s->id);
- }
-
- if (d.time_stamp > time_stamp)
+ //TODO: Strain gauges should have their own critical section, rest of sensors probably don't need to be in a critical section
+ case STRAIN0:
+ success &= GPIO_Set(GPIO0_30, true);
+ success &= ADC_Read(ADC0, &value);
+ success &= GPIO_Set(GPIO0_30, false);
+ if (!success)
+ Fatal("Error reading strain gauge 0");
+ break;
+ case STRAIN1:
+ success &= GPIO_Set(GPIO1_28, true);
+ success &= ADC_Read(ADC0, &value);
+ success &= GPIO_Set(GPIO1_28, false);
+ if (!success)
+ Fatal("Error reading strain gauge 1");
+ break;
+ case STRAIN2:
+ success &= GPIO_Set(GPIO0_31, true);
+ success &= ADC_Read(ADC0, &value);
+ success &= GPIO_Set(GPIO0_31, false);
+ case STRAIN3:
+ success &= GPIO_Set(GPIO1_16, true);
+ success &= ADC_Read(ADC0, &value);
+ success &= GPIO_Set(GPIO1_16, false);
+ if (!success)
+ Fatal("Error reading strain gauge 2");
+ break;
+ case PRESSURE0:
+ success &= ADC_Read(ADC1, &value);
+ break;
+ case PRESSURE1:
+ success &= ADC_Read(ADC5, &value);
+ break;
+ case PRESSURE_FEEDBACK:
+ success &= ADC_Read(ADC4, &value);
+ break;
+ case MICROPHONE:
+ success &= ADC_Read(ADC2, &value);
+ break;
+ case ENCLOSURE:
{
- upper = index;
+ bool why_do_i_need_to_do_this = false;
+ success &= GPIO_Read(GPIO0_31, &why_do_i_need_to_do_this);
+ value = (int)why_do_i_need_to_do_this;
+ break;
}
- else if (d.time_stamp < time_stamp)
+ case DILATOMETER:
{
- lower = index;
+ // Will definitely cause issues included in the same critical section as ADC reads
+ // (since it will be the longest sensor to sample, everything else will have to keep waiting on it)
+ value = 0;
+ break;
}
- if (count != NULL)
- *count += 1;
- }
+
+ }
- if (found != NULL)
- *found = d;
+ d->value = (double)(value); //TODO: Calibration? Or do calibration in GUI
- return index;
+ pthread_mutex_unlock(&mutex); //TODO: Reduce the critical section
-}
-/**
- * Print sensor data between two indexes in the file, using a given format
- * @param s - Sensor to use
- * @param start - Start index
- * @param end - End index
- * @param output_type - JSON, CSV or TSV output format
- */
-void PrintData(Sensor * s, int start, int end, OutputType output_type)
-{
- DataPoint buffer[SENSOR_QUERYBUFSIZ];
- int index = start;
+ // Perform sanity check based on Sensor's ID and the DataPoint
+ Sensor_CheckData(s->id, d->value);
- if (output_type == JSON)
+ // Update latest DataPoint if necessary
+
+ if (result)
{
- FCGI_JSONValue("[");
+ s->newest_data.time_stamp = d->time_stamp;
+ s->newest_data.value = d->value;
}
+#ifdef _BBB
+ //Not all cases have usleep, easiest here.
+ //TODO: May want to add a control option to adjust the sampling rate for each sensor?
+ // Also, we can get a more accurate sampling rate if instead of a fixed sleep, we calculate how long to sleep each time.
+ usleep(100000);
+#endif
- while (index < end)
- {
- int to_read = end - index;
- if (to_read > SENSOR_QUERYBUFSIZ)
- {
- to_read = SENSOR_QUERYBUFSIZ;
- }
-
- int amount_read = 0;
- // CRITICAL SECTION
- pthread_mutex_lock(&(s->mutex));
-
- fseek(s->file, index*sizeof(DataPoint), SEEK_SET);
- amount_read = fread(buffer, sizeof(DataPoint), to_read, s->file);
-
- pthread_mutex_unlock(&(s->mutex));
- // End critical section
+ /*
+ if (success)
+ Log(LOGDEBUG, "Successfully read sensor %d (for once)", s->id);
+ else
+ Log(LOGDEBUG, "Failed to read sensor %d (again)", s->id);
+ */
+ return result && success;
+}
- if (amount_read != to_read)
- {
- Fatal("Failed to read %d DataPoints from sensor %d; read %d instead", to_read, s->id, amount_read);
- }
+/**
+ * Record data from a single Sensor; to be run in a seperate thread
+ * @param arg - Cast to Sensor* - Sensor that the thread will handle
+ * @returns NULL (void* required to use the function with pthreads)
+ */
+void * Sensor_Loop(void * arg)
+{
+ Sensor * s = (Sensor*)(arg);
+ Log(LOGDEBUG, "Sensor %d starts", s->id);
- // Print the data
- for (int i = 0; i < amount_read; ++i)
+ // Until the sensor is stopped, record data points
+ while (s->activated)
+ {
+ DataPoint d;
+ //Log(LOGDEBUG, "Sensor %d reads data [%f,%f]", s->id, d.time_stamp, d.value);
+ if (Sensor_Read(s, &d)) // If new DataPoint is read:
{
- //TODO: Reformat?
- switch (output_type)
- {
- case JSON:
- FCGI_JSONValue("[%f, %f]", buffer[i].time_stamp, buffer[i].value);
- if (i+1 < amount_read)
- FCGI_JSONValue(",");
- break;
- case CSV:
- FCGI_PrintRaw("%f,%f\n", buffer[i].time_stamp, buffer[i].value);
- break;
- case TSV:
- default:
- FCGI_PrintRaw("%f\t%f\n", buffer[i].time_stamp, buffer[i].value);
- break;
- }
+ //Log(LOGDEBUG, "Sensor %d saves data [%f,%f]", s->id, d.time_stamp, d.value);
+ Data_Save(&(s->data_file), &d, 1); // Record it
}
- index += amount_read;
}
+
+ // Needed to keep pthreads happy
- if (output_type == JSON)
- {
- FCGI_JSONValue("]");
- }
-}
-
-/**
- * Fill buffer with most recent sensor data
- * TODO: This may be obselete; remove?
- * @param s - Sensor to use
- * @param buffer - Buffer to fill
- * @param bufsiz - Size of buffer to fill
- * @returns The number of DataPoints actually read
- */
-int Sensor_Query(Sensor * s, DataPoint * buffer, int bufsiz)
-{
- int amount_read = 0;
- //CRITICAL SECTION (Don't access file while sensor thread is writing to it!)
- pthread_mutex_lock(&(s->mutex));
-
- fseek(s->file, -bufsiz*sizeof(DataPoint), SEEK_END);
- amount_read = fread(buffer, sizeof(DataPoint), bufsiz, s->file);
- //Log(LOGDEBUG, "Read %d data points", amount_read);
- pthread_mutex_unlock(&(s->mutex));
- return amount_read;
+ Log(LOGDEBUG, "Sensor %d finished", s->id);
+ return NULL;
}
/**
}
/**
- * Handle a request to the sensor module
- * @param context - The context to work in
- * @param params - Parameters passed
- * TODO: Seriously need to write more helper functions and decrease the size of this function!
+ * Helper: Begin sensor response in a given format
+ * @param context - the FCGIContext
+ * @param id - ID of sensor
+ * @param format - Format
*/
-void Sensor_Handler(FCGIContext *context, char * params)
+void Sensor_BeginResponse(FCGIContext * context, SensorId id, DataFormat format)
{
- StatusCodes status = STATUS_OK;
-
- OutputType output_type = JSON;
-
-
-
- const char * key; const char * value;
-
- Sensor * sensor = NULL;
-
- struct timeval now;
- gettimeofday(&now, NULL);
-
- double start_time = -1;
- double end_time = -1;
- double current_time = (now.tv_sec - g_options.start_time.tv_sec) + 1e-6*(now.tv_usec - g_options.start_time.tv_usec);
- bool seek_time = false;
- bool points_specified = false;
- int query_size = SENSOR_QUERYBUFSIZ;
- int start_index = -1;
- int end_index = -1;
-
-
- while ((params = FCGI_KeyPair(params, &key, &value)) != NULL)
- {
- Log(LOGDEBUG, "Got key=%s and value=%s", key, value);
- if (strcmp(key, "id") == 0)
- {
- if (sensor != NULL)
- {
- Log(LOGERR, "Only one sensor id should be specified");
- status = STATUS_ERROR;
- break;
- }
- if (*value == '\0')
- {
- Log(LOGERR, "No id specified.");
- status = STATUS_ERROR;
- break;
- }
-
- sensor = Sensor_Identify(value);
- if (sensor == NULL)
- {
- Log(LOGERR, "Invalid sensor id: %s", value);
- status = STATUS_ERROR;
- break;
- }
- }
- else if (strcmp(key, "format") == 0)
- {
- if (strcmp(value, "json") == 0)
- output_type = JSON;
- else if (strcmp(value, "csv") == 0)
- output_type = CSV;
- else if (strcmp(value, "tsv") == 0)
- output_type = TSV;
- }
- else if (strcmp(key, "points") == 0)
- {
- points_specified = true;
- if (strcmp(value, "all") == 0)
- {
- query_size = sensor->points_written;
- }
- else
- {
- char * end;
- query_size = strtol(value, &end, 10);
- if (*end != '\0')
- {
- Log(LOGERR, "Require \"all\" or an integer value: %s = %s", key, value);
- status = STATUS_ERROR;
- break;
- }
- }
-
- }
- else if (strcmp(key, "start_time") == 0)
- {
- seek_time = true;
- char * end;
- start_time = strtod(value, &end);
- if (*end != '\0')
- {
- Log(LOGERR, "Require a double: %s = %s", key, value);
- status = STATUS_ERROR;
- break;
- }
-
- // Treat negative values as being relative to the current time
- if (start_time < 0)
- {
- start_time = current_time + start_time;
- }
- start_time = floor(start_time);
- }
- else if (strcmp(key, "end_time") == 0)
- {
- seek_time = true;
- char * end;
- end_time = strtod(value, &end);
- if (*end != '\0')
- {
- Log(LOGERR, "Require a double: %s = %s", key, value);
- status = STATUS_ERROR;
- break;
- }
-
- // Treat negative values as being relative to the current time
- if (end_time < 0)
- {
- end_time = current_time + end_time;
- }
- end_time = ceil(end_time);
- }
- // For backward compatability:
- else if (strcmp(key, "dump") == 0)
- {
- output_type = TSV;
- query_size = sensor->points_written+1;
- }
- else
- {
- Log(LOGERR, "Unknown key \"%s\" (value = %s)", key, value);
- status = STATUS_ERROR;
- break;
- }
- }
-
- if (status != STATUS_ERROR && sensor == NULL)
- {
- Log(LOGERR, "No valid sensor id given");
- status = STATUS_ERROR;
- }
-
- if (status == STATUS_ERROR)
- {
- FCGI_RejectJSON(context, "Invalid input parameters");
- return;
- }
-
-
- if (seek_time)
- {
- if (end_time < 0 && !points_specified)
- end_index = sensor->points_written;
- else
- {
- int count = 0; DataPoint d;
- end_index = FindTime(sensor, end_time, &count, &d);
- Log(LOGDEBUG, "FindTime - Looked for %f; found [%f,%f] after %d iterations; sensor %d, position %d", end_time, d.time_stamp, d.value, count, sensor->id, end_index);
- }
- if (start_time < 0)
- start_time = 0;
- else
- {
- int count = 0; DataPoint d;
- start_index = FindTime(sensor, start_time, &count, &d);
- Log(LOGDEBUG, "FindTime - Looked for %f; found [%f,%f] after %d iterations; sensor %d, position %d", start_time, d.time_stamp, d.value, count, sensor->id, start_index);
- }
-
- if (points_specified)
- end_index = start_index + query_size;
- }
- else
- {
- start_index = sensor->points_written - query_size;
-
- end_index = sensor->points_written;
- }
-
- if (start_index < 0)
- {
- Log(LOGNOTE, "start_index = %d => Clamped to 0", start_index);
- start_index = 0;
- }
- if (end_index > sensor->points_written)
- {
- Log(LOGNOTE, "end_index = %d => Clamped to %d", end_index, sensor->points_written);
- end_index = sensor->points_written;
- }
-
- switch (output_type)
+ // Begin response
+ switch (format)
{
case JSON:
- FCGI_BeginJSON(context, status);
- FCGI_JSONLong("id", sensor->id);
- FCGI_JSONKey("data");
- PrintData(sensor, start_index, end_index, output_type);
- FCGI_EndJSON();
+ FCGI_BeginJSON(context, STATUS_OK);
+ FCGI_JSONLong("id", id);
+ FCGI_JSONPair("name", g_sensor_names[id]);
break;
default:
FCGI_PrintRaw("Content-type: text/plain\r\n\r\n");
- PrintData(sensor, start_index, end_index, output_type);
- //Force download with content-disposition
- // Sam: This is cool, but I don't think we should do it
- // - letting the user view it in the browser and then save with their own filename is more flexible
- //"Content-disposition: attachment;filename=%d.csv\r\n\r\n", sensor->id);
break;
}
-
}
/**
- * Setup Sensors, start Sensor polling thread(s)
+ * Helper: End sensor response in a given format
+ * @param context - the FCGIContext
+ * @param id - ID of the sensor
+ * @param format - Format
*/
-void Sensor_Spawn()
+void Sensor_EndResponse(FCGIContext * context, SensorId id, DataFormat format)
{
- // start sensor threads
- for (int i = 0; i < NUMSENSORS; ++i)
+ // End response
+ switch (format)
{
- Init(g_sensors+i, i);
- pthread_create(&(g_sensors[i].thread), NULL, Sensor_Main, (void*)(g_sensors+i));
+ case JSON:
+ FCGI_EndJSON();
+ break;
+ default:
+ break;
}
}
/**
- * Quit Sensor loops
+ * Handle a request to the sensor module
+ * @param context - The context to work in
+ * @param params - Parameters passed
*/
-void Sensor_Join()
+void Sensor_Handler(FCGIContext *context, char * params)
{
- if (!Thread_Runstate())
+ struct timeval now;
+ gettimeofday(&now, NULL);
+ double current_time = TIMEVAL_DIFF(now, *Control_GetStartTime());
+
+ int id = 0;
+ double start_time = 0;
+ double end_time = current_time;
+ const char * fmt_str;
+
+ // key/value pairs
+ FCGIValue values[] = {
+ {"id", &id, FCGI_REQUIRED(FCGI_INT_T)},
+ {"format", &fmt_str, FCGI_STRING_T},
+ {"start_time", &start_time, FCGI_DOUBLE_T},
+ {"end_time", &end_time, FCGI_DOUBLE_T},
+ };
+
+ // enum to avoid the use of magic numbers
+ typedef enum {
+ ID,
+ FORMAT,
+ START_TIME,
+ END_TIME,
+ } SensorParams;
+
+ // Fill values appropriately
+ if (!FCGI_ParseRequest(context, params, values, sizeof(values)/sizeof(FCGIValue)))
{
- Fatal("This function should not be called before Thread_QuitProgram");
+ // Error occured; FCGI_RejectJSON already called
+ return;
}
- for (int i = 0; i < NUMSENSORS; ++i)
+
+ // Error checking on sensor id
+ if (id < 0 || id >= NUMSENSORS)
{
- pthread_join(g_sensors[i].thread, NULL);
- Destroy(g_sensors+i);
+ FCGI_RejectJSON(context, "Invalid sensor id");
+ return;
}
+ Sensor * s = g_sensors+id;
+
+ DataFormat format = Data_GetFormat(&(values[FORMAT]));
+
+ // Begin response
+ Sensor_BeginResponse(context, id, format);
+
+ // Print Data
+ Data_Handler(&(s->data_file), &(values[START_TIME]), &(values[END_TIME]), format, current_time);
+
+ // Finish response
+ Sensor_EndResponse(context, id, format);
}
+
+
+