Edwin Kadavy
Watchdog_Step-3_Edwin_Kadavy
Fork of
Watchdog_sample_nocoverage
by 
William Marsh
Revision 6:d93fa1c57fd2, committed 2018-03-09
- Comitter:
- edwinkad
- Date:
- Fri Mar 09 23:18:31 2018 +0000
- Parent:
- 5:9817756efc34
- Commit message:
- Edwin Kadavy
Changed in this revision
| main.cpp | Show annotated file Show diff for this revision Revisions of this file |
| mbed_app.json | Show annotated file Show diff for this revision Revisions of this file |
diff -r 9817756efc34 -r d93fa1c57fd2 main.cpp
--- a/main.cpp Tue Feb 27 10:29:30 2018 +0000
+++ b/main.cpp Fri Mar 09 23:18:31 2018 +0000
@@ -5,68 +5,154 @@
// Sample program using the Watchdog
// ---------------------------------
// * Three threads co-operate to flash two LEDs
-// * A simple way to inject a fault, by pressing a button
+// * A simple way to inject a fault, by pressing a button
// * The watchdog is configured with a 32ms timeout
#define ON 1
#define OFF 0
DigitalOut led_red(LED_RED, ON);
+DigitalOut led_blue(LED_BLUE, ON);
+DigitalOut led_green(LED_GREEN, ON);
DigitalIn button(PTD0, PullUp);
DigitalOut led1(PTC12, OFF);
DigitalOut led2(PTC13, OFF);
+AnalogIn ain1(A0) ; // Analog input 1
+AnalogIn ain2(A1) ; // Analog input 2
// This ticker is used to feed the watch dog
-Ticker tick;
+Ticker tick1, tick2;
// Threads
-Thread threadT ; // timer thread
+Thread threadT ; // timer thread
Thread threadLED1 ; // thread LED1
Thread threadLED2 ; // thread LED2
+
+//Detection of hardware failure
+
+volatile int volts1 = 0 ;
+volatile int volts2 = 0 ;
+volatile int state=0 ;
+
+Serial pc(USBTX, USBRX); // tx, rx, for debugging
+
+// Message type1
+typedef struct {
+ uint16_t analog; /* Analog input value */
+} message_t;
+
+// Mail box
+Mail<message_t, 2> mailbox;
+
+// Function called every 10ms to read ADC
+// Low pass filter
+// Every 10th value is sent to mailbox
+volatile int samples = 0 ;
+volatile uint16_t smoothed = 0 ;
+void readA0()
+{
+ smoothed = (smoothed >> 1) + (ain1.read_u16() >> 1) ;
+ samples++ ;
+ if (samples == 10) {
+ // send to thread
+ message_t *mess = mailbox.alloc() ; // may fail but does not block
+ if (mess) {
+ mess->analog = smoothed ;
+ mailbox.put(mess); // fails but does not block if full
+ }
+ samples = 0;
+ }
+}
+
+// Message type2
+typedef struct {
+ uint16_t analog2; /* Analog input value */
+} message_t2;
+
+// Mail box
+Mail<message_t2, 2> mailbox2;
+
+volatile int samples2 = 0 ;
+volatile uint16_t smoothed2 = 0 ;
+void readA1()
+{
+ smoothed2 = (smoothed2 >> 1) + (ain2.read_u16() >> 1) ;
+ samples2++ ;
+ if (samples2 == 10) {
+ // send to thread
+ message_t2 *mess = mailbox2.alloc() ; // may fail but does not block
+ if (mess) {
+ mess->analog2 = smoothed2 ;
+ mailbox2.put(mess); // fails but does not block if full
+ }
+ samples2 = 0;
+ }
+}
+
+// Write voltage digits
+// v Voltage as scale int, e.g. 3.30 is 330
+void vToString(int v, char* s)
+{
+ s[3] = '0' + (v % 10) ;
+ v = v / 10 ;
+ s[2] = '0' + (v % 10) ;
+ v = v / 10 ;
+ s[0] = '0' + (v % 10) ;
+}
+
+
+
// ------------Fault Injection Button-------------
// Wait while the button is down
// Use this to simulate a STUCK fault
// -----------------------------------------------
-void waitButton() {
- while (!button) ;
+void waitButton()
+{
+ while (!button) ;
}
// ---Thread for controlling LED 1----------------
-// Turn LED1 on/off in response to signals
+// Turn LED1 on/off in response to signals
// -----------------------------------------------
-void led1_thread() { // method to run in thread
+void led1_thread() // method to run in thread
+{
osEvent evt ;
while (true) {
+ wdt_kickA(); // first part
evt = Thread::signal_wait(0x0); // wait for any signal
if (evt.status == osEventSignal) {
if (evt.value.signals & 0x01) led1 = ON ;
if (evt.value.signals & 0x02) led1 = OFF ;
- }
- waitButton() ; // POSSIBLE FAULT HERE
+ }
+ //waitButton() ; // POSSIBLE FAULT HERE
}
}
// ---Thread for controlling LED 2----------------
-// Turn LED2 on/off in response to signals
+// Turn LED2 on/off in response to signals
// -----------------------------------------------
-void led2_thread() { // method to run in thread
+void led2_thread() // method to run in thread
+{
osEvent evt ;
while (true) {
+ wdt_kickB(); // second part
evt = Thread::signal_wait(0x0); // wait for any signal
if (evt.status == osEventSignal) {
if (evt.value.signals & 0x01) led2 = ON ;
if (evt.value.signals & 0x02) led2 = OFF ;
- }
- // waitButton() ; // POSSIBLE FAULT HERE
+ }
+ waitButton() ; // POSSIBLE FAULT HERE
}
}
// ---Thread for timing --------------------------
// Send signals to the other threads
// -----------------------------------------------
-void timer_thread() { // method to run in thread
+void timer_thread() // method to run in thread
+{
while (true) {
Thread::wait(250) ;
+
threadLED1.signal_set(0x1) ;
threadLED2.signal_set(0x1) ;
Thread::wait(250) ;
@@ -76,25 +162,79 @@
}
}
+void detection(int volts)
+{
+ if(volts==0 ||state==1) {
+ led_blue= OFF;
+ state=1;
+ } else if(volts>=300||state==2) {
+ led_green= OFF;
+ state=2;
+ }
+}
+
// -----------MAIN-------------------------------
-// Configure watchdog. Start threads.
+// Configure watchdog. Start threads.
// Show start up with RED for 1sec
// Remember the watchdog is running
// - 1024ms to set it once
-// - then must feed it every 32ms
+// - then must feed it every 32ms
// ----------------------------------------------
-int main(void) {
- wdt_32ms() ; // initialise watchdog - 32ms timeout
- tick.attach_us(callback(&wdt_kick_all), 20000); // ticks every 20ms
-
+
+
+int main(void)
+{
+ wdt_256ms() ; // initialise watchdog - 32ms timeout
+ //wdt_kick_all;
+ //tick.attach_us(callback(&wdt_kick_all), 20000); // ticks every 20ms
+
// start threads
- threadT.start(&timer_thread) ; // start the timer thread
- threadLED1.start(&led1_thread) ; // start the LED1 control thread
- threadLED2.start(&led2_thread) ; // start the LED2 control thread
-
+ threadT.start(&timer_thread) ; // start the timer thread
+ threadLED1.start(&led1_thread) ; // start the LED1 control thread
+ threadLED2.start(&led2_thread) ; // start the LED2 control thread
+
+
// show start-up
led_red = OFF;
Thread::wait(1000) ;
led_red = ON;
+
+ //hardware failure detection
+ int counter = 0 ;
+ char vstring1[] = "X.XX\r\n" ;
+ char vstring2[] = "X.XX\r\n" ;
+
+ tick1.attach_us(callback(&readA0), 10000); // ticks every 10ms
+ tick2.attach_us(callback(&readA1), 10000); // ticks every 10ms
+ while (true) {
+ osEvent evt = mailbox.get(); // wait for mail
+ if (evt.status == osEventMail) {
+ message_t* mess = (message_t*)evt.value.p ;
+ volts1 = (mess->analog * 330) / 0xffff ;
+
+ mailbox.free(mess) ; // free the message space
+ }
+
+ osEvent evt2 = mailbox2.get(); // wait for mail
+ if (evt2.status == osEventMail) {
+ message_t2* mess = (message_t2*)evt2.value.p ;
+ volts2 = (mess->analog2 * 330) / 0xffff ;
+ mailbox2.free(mess) ; // free the message space
+ }
+
+ counter++ ;
+ if (counter == 5) { // limit bandwidth of serial
+ detection(volts1); // hardware fault detecttion.(It is inside the counter which cause a small delay,...
+ detection(volts2); // putting it out side causes the first 0 value to be read showing an instant failure)
+ vToString(volts1, vstring1) ;
+ pc.printf("LED1 ");
+ pc.printf(vstring1) ;
+ vToString(volts2, vstring2) ;
+ pc.printf("LED2 ");
+ pc.printf(vstring2) ;
+ counter = 0 ;
+ }
+ }
+
}
\ No newline at end of file
diff -r 9817756efc34 -r d93fa1c57fd2 mbed_app.json
--- a/mbed_app.json Tue Feb 27 10:29:30 2018 +0000
+++ b/mbed_app.json Fri Mar 09 23:18:31 2018 +0000
@@ -1,7 +1,7 @@
{
"config": {
- "main-stack-size": {
- "value": 2000
+ "Thread-stack-size": {
+ "value": 1400
}
}
}
\ No newline at end of file