log->csum = 0;
log->csum = ao_log_csum((__xdata uint8_t *) log);
ao_mutex_get(&ao_log_mutex); {
- if (ao_log_current_pos >= ao_log_end_pos)
- ao_log_running = 0;
+ if (ao_log_current_pos >= ao_log_end_pos && ao_log_running)
+ ao_log_stop();
if (ao_log_running) {
wrote = 1;
ao_storage_write(ao_log_current_pos,
{
ao_storage_setup();
- /* For now, use all of the available space */
- ao_log_current_pos = 0;
- ao_log_end_pos = ao_storage_config;
-
ao_log_scan();
while (!ao_log_running)
log.type = AO_LOG_FLIGHT;
log.tick = ao_flight_tick;
+#if HAS_ACCEL
log.u.flight.ground_accel = ao_ground_accel;
+#endif
log.u.flight.flight = ao_flight_number;
ao_log_data(&log);
/* Write the whole contents of the ring to the log
* when starting up.
*/
- ao_log_adc_pos = ao_adc_ring_next(ao_adc_head);
+ ao_log_adc_pos = ao_adc_ring_next(ao_flight_adc);
for (;;) {
/* Write samples to EEPROM */
- while (ao_log_adc_pos != ao_adc_head) {
+ while (ao_log_adc_pos != ao_flight_adc) {
log.type = AO_LOG_SENSOR;
log.tick = ao_adc_ring[ao_log_adc_pos].tick;
log.u.sensor.accel = ao_adc_ring[ao_log_adc_pos].accel;
return i * sizeof (struct ao_log_erase) + AO_STORAGE_ERASE_LOG;
}
-static void
+void
ao_log_write_erase(uint8_t pos)
{
erase.unused = 0x00;
erase.flight = ao_flight_number;
ao_storage_write(ao_log_erase_pos(pos), &erase, sizeof (erase));
+ ao_storage_flush();
}
static void
ao_config_put();
}
-static void
-ao_log_erase(uint8_t pos)
+static uint8_t
+ao_log_slots()
{
- ao_config_get();
- (void) pos;
-// ao_log_current_pos = pos * ao_config.flight_log_max;
-// ao_log_end_pos = ao_log_current_pos + ao_config.flight_log_max;
-// if (ao_log_end_pos > ao_storage_config)
-// return;
-
- ao_log_current_pos = 0;
- ao_log_end_pos = ao_storage_config;
-
- while (ao_log_current_pos < ao_log_end_pos) {
- ao_storage_erase(ao_log_current_pos);
- ao_log_current_pos += ao_storage_block;
- }
+ return (uint8_t) (ao_storage_config / ao_config.flight_log_max);
+}
+
+static uint32_t
+ao_log_pos(uint8_t slot)
+{
+ return ((slot) * ao_config.flight_log_max);
}
static uint16_t
ao_log_flight(uint8_t slot)
{
- (void) slot;
- if (!ao_storage_read(0,
+ if (!ao_storage_read(ao_log_pos(slot),
&log,
sizeof (struct ao_log_record)))
- ao_panic(AO_PANIC_LOG);
+ return 0;
if (ao_log_dump_check_data() && log.type == AO_LOG_FLIGHT)
return log.u.flight.flight;
return 0;
}
-static void
-ao_log_scan(void)
+static uint16_t
+ao_log_max_flight(void)
{
uint8_t log_slot;
- uint8_t log_avail = 0;
+ uint8_t log_slots;
uint16_t log_flight;
+ uint16_t max_flight = 0;
- ao_config_get();
-
- ao_flight_number = 0;
-
- /* Scan the log space looking for an empty one, and find the biggest flight number */
- log_slot = 0;
- {
+ /* Scan the log space looking for the biggest flight number */
+ log_slots = ao_log_slots();
+ for (log_slot = 0; log_slot < log_slots; log_slot++) {
log_flight = ao_log_flight(log_slot);
- if (log_flight) {
- if (++log_flight == 0)
- log_flight = 1;
- if (ao_flight_number == 0 ||
- (int16_t) (log_flight - ao_flight_number) > 0) {
- ao_flight_number = log_flight;
- }
- } else
- log_avail |= 1 << log_slot;
+ if (!log_flight)
+ continue;
+ if (max_flight == 0 || (int16_t) (log_flight - max_flight) > 0)
+ max_flight = log_flight;
}
+ return max_flight;
+}
+
+static void
+ao_log_scan(void) __reentrant
+{
+ uint8_t log_slot;
+ uint8_t log_slots;
+ uint8_t log_want;
+
+ ao_config_get();
+
+ ao_flight_number = ao_log_max_flight();
+ if (ao_flight_number)
+ if (++ao_flight_number == 0)
+ ao_flight_number = 1;
/* Now look through the log of flight numbers from erase operations and
* see if the last one is bigger than what we found above
* that we write logs to each spot about the same number of times.
*/
- /* If there are no log slots available, then
- * do not log the next flight
- */
- if (!log_avail) {
- ao_log_current_pos = 0;
- ao_log_end_pos = 0;
- } else {
- log_slot = ao_flight_number % log_slot;
- while (!((log_avail & (1 << log_slot)))) {
- if ((1 << log_slot) > log_avail)
- log_slot = 0;
- else
- log_slot++;
+ /* Find a log slot for the next flight, if available */
+ ao_log_current_pos = ao_log_end_pos = 0;
+ log_slots = ao_log_slots();
+ log_want = (ao_flight_number - 1) % log_slots;
+ log_slot = log_want;
+ do {
+ if (ao_log_flight(log_slot) == 0) {
+ ao_log_current_pos = ao_log_pos(log_slot);
+ ao_log_end_pos = ao_log_current_pos + ao_config.flight_log_max;
+ break;
}
-// ao_log_current_pos = log_slot * ao_config.flight_log_max;
-// ao_log_end_pos = ao_log_current_pos + ao_config.flight_log_max;
- ao_log_current_pos = 0;
- ao_log_end_pos = ao_storage_config;
- }
+ if (++log_slot >= log_slots)
+ log_slot = 0;
+ } while (log_slot != log_want);
ao_wakeup(&ao_flight_number);
}
ao_log_flush();
}
+uint8_t
+ao_log_present(void)
+{
+ return ao_log_max_flight() != 0;
+}
+
+uint8_t
+ao_log_full(void)
+{
+ return ao_log_current_pos == ao_log_end_pos;
+}
+
static __xdata struct ao_task ao_log_task;
void
ao_log_list(void) __reentrant
{
uint8_t slot;
+ uint8_t slots;
uint16_t flight;
- slot = 0;
+ slots = ao_log_slots();
+ for (slot = 0; slot < slots; slot++)
{
flight = ao_log_flight(slot);
if (flight)
- printf ("Flight %d\n", flight);
+ printf ("flight %d start %x end %x\n",
+ flight,
+ (uint16_t) (ao_log_pos(slot) >> 8),
+ (uint16_t) (ao_log_pos(slot+1) >> 8));
}
+ printf ("done\n");
}
void
ao_log_delete(void) __reentrant
{
uint8_t slot;
+ uint8_t slots;
+
ao_cmd_decimal();
if (ao_cmd_status != ao_cmd_success)
return;
- slot = 0;
+
+ slots = ao_log_slots();
/* Look for the flight log matching the requested flight */
- {
- if (ao_log_flight(slot) == ao_cmd_lex_i) {
- ao_log_current_pos = 0;
- ao_log_end_pos = ao_storage_config;
- while (ao_log_current_pos < ao_log_end_pos) {
- /*
- * Check to see if we've reached the end of
- * the used memory to avoid re-erasing the same
- * memory over and over again
- */
- if (ao_storage_read(ao_log_current_pos,
- &log,
- sizeof (struct ao_log_record))) {
- for (slot = 0; slot < sizeof (struct ao_log_record); slot++)
- if (((uint8_t *) &log)[slot] != 0xff)
+ if (ao_cmd_lex_i) {
+ for (slot = 0; slot < slots; slot++) {
+ if (ao_log_flight(slot) == ao_cmd_lex_i) {
+ ao_log_erase_mark();
+ ao_log_current_pos = ao_log_pos(slot);
+ ao_log_end_pos = ao_log_current_pos + ao_config.flight_log_max;
+ while (ao_log_current_pos < ao_log_end_pos) {
+ /*
+ * Check to see if we've reached the end of
+ * the used memory to avoid re-erasing the same
+ * memory over and over again
+ */
+ if (ao_storage_read(ao_log_current_pos,
+ &log,
+ sizeof (struct ao_log_record))) {
+ for (slot = 0; slot < sizeof (struct ao_log_record); slot++)
+ if (((uint8_t *) &log)[slot] != 0xff)
+ break;
+ if (slot == sizeof (struct ao_log_record))
break;
- if (slot == sizeof (struct ao_log_record))
- break;
+ }
+ ao_storage_erase(ao_log_current_pos);
+ ao_log_current_pos += ao_storage_block;
}
- ao_storage_erase(ao_log_current_pos);
- ao_log_current_pos += ao_storage_block;
+ puts("Erased");
+ return;
}
- puts("Erased\n");
- return;
}
}
printf("No such flight: %d\n", ao_cmd_lex_i);
}
+
+
__code struct ao_cmds ao_log_cmds[] = {
- { 'l', ao_log_list, "l List stored flight logs" },
- { 'd', ao_log_delete, "d <flight-number> Delete stored flight" },
- { 0, ao_log_delete, NULL },
+ { ao_log_list, "l\0List stored flight logs" },
+ { ao_log_delete, "d <flight-number>\0Delete stored flight" },
+ { 0, NULL },
};
void