2020-12-14 11:17:22 +01:00
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#ifndef FSFW_TIMEMANAGER_CLOCK_H_
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#define FSFW_TIMEMANAGER_CLOCK_H_
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2018-07-12 16:29:32 +02:00
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2020-08-13 20:53:35 +02:00
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#include "../returnvalues/HasReturnvaluesIF.h"
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2020-11-17 19:25:57 +01:00
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#include "../ipc/MutexHelper.h"
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2020-08-13 20:53:35 +02:00
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#include "../globalfunctions/timevalOperations.h"
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2018-07-12 16:29:32 +02:00
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2020-05-29 17:45:08 +02:00
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#include <cstdint>
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2020-12-20 15:32:03 +01:00
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#ifndef WIN32
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#include <sys/time.h>
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#endif
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2020-06-04 13:01:59 +02:00
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//! Don't use these for time points, type is not large enough for UNIX epoch.
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2020-09-18 12:27:40 +02:00
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using dur_millis_t = uint32_t;
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2018-07-12 16:29:32 +02:00
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class Clock {
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public:
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typedef struct {
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uint32_t year; //!< Year, A.D.
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uint32_t month; //!< Month, 1 .. 12.
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uint32_t day; //!< Day, 1 .. 31.
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uint32_t hour; //!< Hour, 0 .. 23.
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uint32_t minute; //!< Minute, 0 .. 59.
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uint32_t second; //!< Second, 0 .. 59.
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uint32_t usecond; //!< Microseconds, 0 .. 999999
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} TimeOfDay_t;
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2020-05-29 17:45:08 +02:00
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/**
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2018-07-12 16:29:32 +02:00
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* This method returns the number of clock ticks per second.
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* In RTEMS, this is typically 1000.
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* @return The number of ticks.
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2018-07-13 15:56:37 +02:00
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*
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* @deprecated, we should not worry about ticks, but only time
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*/
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static uint32_t getTicksPerSecond(void);
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/**
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* This system call sets the system time.
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* To set the time, it uses a TimeOfDay_t struct.
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* @param time The struct with the time settings to set.
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* @return -@c RETURN_OK on success. Otherwise, the OS failure code
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* is returned.
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2018-07-12 16:29:32 +02:00
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*/
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static ReturnValue_t setClock(const TimeOfDay_t* time);
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/**
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* This system call sets the system time.
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* To set the time, it uses a timeval struct.
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* @param time The struct with the time settings to set.
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* @return -@c RETURN_OK on success. Otherwise, the OS failure code is returned.
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2018-07-12 16:29:32 +02:00
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*/
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static ReturnValue_t setClock(const timeval* time);
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/**
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* This system call returns the current system clock in timeval format.
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* The timval format has the fields @c tv_sec with seconds and @c tv_usec with
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* microseconds since an OS-defined epoch.
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* @param time A pointer to a timeval struct where the current time is stored.
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* @return @c RETURN_OK on success. Otherwise, the OS failure code is returned.
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*/
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static ReturnValue_t getClock_timeval(timeval* time);
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/**
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* Get the time since boot in a timeval struct
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*
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* @param[out] time A pointer to a timeval struct where the uptime is stored.
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* @return @c RETURN_OK on success. Otherwise, the OS failure code is returned.
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*
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* @deprecated, I do not think this should be able to fail, use timeval getUptime()
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*/
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static ReturnValue_t getUptime(timeval* uptime);
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2018-07-13 15:56:37 +02:00
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static timeval getUptime();
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2018-07-12 16:29:32 +02:00
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/**
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* Get the time since boot in milliseconds
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*
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* This value can overflow! Still, it can be used to calculate time intervalls
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* between two calls up to 49 days by always using uint32_t in the calculation
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*
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* @param ms uptime in ms
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* @return RETURN_OK on success. Otherwise, the OS failure code is returned.
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*/
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static ReturnValue_t getUptime(uint32_t* uptimeMs);
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/**
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* Returns the time in microseconds since an OS-defined epoch.
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* The time is returned in a 64 bit unsigned integer.
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* @param time A pointer to a 64 bit unisigned integer where the data is stored.
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* @return \c RETURN_OK on success. Otherwise, the OS failure code is returned.
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*/
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static ReturnValue_t getClock_usecs(uint64_t* time);
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/**
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* Returns the time in a TimeOfDay_t struct.
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* @param time A pointer to a TimeOfDay_t struct.
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* @return \c RETURN_OK on success. Otherwise, the OS failure code is returned.
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*/
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static ReturnValue_t getDateAndTime(TimeOfDay_t* time);
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/**
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* Converts a time of day struct to POSIX seconds.
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* @param time The time of day as input
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* @param timeval The corresponding seconds since the epoch.
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* @return \c RETURN_OK on success. Otherwise, the OS failure code is returned.
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*/
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static ReturnValue_t convertTimeOfDayToTimeval(const TimeOfDay_t* from,
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timeval* to);
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/**
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* Converts a time represented as seconds and subseconds since unix epoch to days since J2000
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*
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* @param time seconds since unix epoch
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* @param[out] JD2000 days since J2000
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* @return \c RETURN_OK
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*/
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static ReturnValue_t convertTimevalToJD2000(timeval time, double* JD2000);
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/**
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* Calculates and adds the offset between UTC and TT
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*
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* Depends on the leap seconds to be set correctly.
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*
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* @param utc timeval, corresponding to UTC time
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* @param[out] tt timeval, corresponding to Terrestial Time
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* @return \c RETURN_OK on success, \c RETURN_FAILED if leapSeconds are not set
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*/
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static ReturnValue_t convertUTCToTT(timeval utc, timeval* tt);
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/**
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* Set the Leap Seconds since 1972
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*
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* @param leapSeconds_
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* @return \c RETURN_OK on success. Otherwise, the OS failure code is returned.
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*/
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static ReturnValue_t setLeapSeconds(const uint16_t leapSeconds_);
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/**
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* Get the Leap Seconds since 1972
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*
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* Must be set before!
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*
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* @param[out] leapSeconds_
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* @return \c RETURN_OK on success. Otherwise, the OS failure code is returned.
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*/
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static ReturnValue_t getLeapSeconds(uint16_t *leapSeconds_);
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/**
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* Function to check and create the Mutex for the clock
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* @return \c RETURN_OK on success. Otherwise \c RETURN_FAILED if not able to create one
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*/
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static ReturnValue_t checkOrCreateClockMutex();
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private:
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static MutexIF* timeMutex;
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static uint16_t leapSeconds;
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};
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2020-12-14 11:17:22 +01:00
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#endif /* FSFW_TIMEMANAGER_CLOCK_H_ */
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