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  /*
   * Copyright (C) 2015 Kaspar Schleiser <kaspar@schleiser.de>
   * Copyright (C) 2016 Eistec AB
   *
   * This file is subject to the terms and conditions of the GNU Lesser
   * General Public License v2.1. See the file LICENSE in the top level
   * directory for more details.
   */
  
  /**
   * @defgroup  sys_xtimer Timers
   * @ingroup   sys
   * @brief     Provides a high level timer module to register
   *            timers, get current system time, and let a thread sleep for
   *            a certain amount of time.
   *
   * The implementation takes one low-level timer and multiplexes it.
   *
   * Insertion and removal of timers has O(n) complexity with (n) being the
   * number of active timers.  The reason for this is that multiplexing is
   * realized by next-first singly linked lists.
   *
   * @{
   * @file
   * @brief   xtimer interface definitions
   * @author  Kaspar Schleiser <kaspar@schleiser.de>
   * @author  Joakim Nohlgård <joakim.nohlgard@eistec.se>
   */
  #ifndef XTIMER_H
  #define XTIMER_H
  
  #include <stdint.h>
  #include "timex.h"
  #include "msg.h"
  
  #include "board.h"
  #include "periph_conf.h"
  
  #ifdef __cplusplus
  extern "C" {
  #endif
  
  /**
   * @brief xtimer timestamp (64 bit)
   *
   * @note This is a struct in order to make the xtimer API type strict
   */
  typedef struct {
      uint64_t ticks64;
  } xtimer_ticks64_t;
  
  /**
   * @brief xtimer timestamp (32 bit)
   *
   * @note This is a struct in order to make the xtimer API type strict
   */
  typedef struct {
      uint32_t ticks32;
  } xtimer_ticks32_t;
  
  /**
   * @brief xtimer callback type
   */
  typedef void (*xtimer_callback_t)(void*);
  
  /**
   * @brief xtimer timer structure
   */
  typedef struct xtimer {
      struct xtimer *next;        /**< reference to next timer in timer lists */
      uint32_t target;            /**< lower 32bit absolute target time */
      uint32_t long_target;       /**< upper 32bit absolute target time */
      xtimer_callback_t callback;  /**< callback function to call when timer
                                       expires */
      void *arg;                  /**< argument to pass to callback function */
  } xtimer_t;
  
  /**
   * @brief get the current system time as 32bit time stamp value
   *
   * @note    Overflows 2**32 ticks, thus returns xtimer_now64() % 32,
   *          but is cheaper.
   *
   * @return  current time as 32bit time stamp
   */
  static inline xtimer_ticks32_t xtimer_now(void);
  
  /**
   * @brief get the current system time as 64bit time stamp
   *
   * @return  current time as 64bit time stamp
   */
  static inline xtimer_ticks64_t xtimer_now64(void);
  
  /**
   * @brief get the current system time into a timex_t
   *
   * @param[out] out  pointer to timex_t the time will be written to
   */
  void xtimer_now_timex(timex_t *out);
  
  /**
   * @brief get the current system time in microseconds since start
   *
   * This is a convenience function for @c xtimer_usec_from_ticks(xtimer_now())
   */
  static inline uint32_t xtimer_now_usec(void);
  
  /**
   * @brief get the current system time in microseconds since start
   *
   * This is a convenience function for @c xtimer_usec_from_ticks64(xtimer_now64())
   */
  static inline uint64_t xtimer_now_usec64(void);
  
  /**
   * @brief xtimer initialization function
   *
   * This sets up xtimer. Has to be called once at system boot.
   * If @ref auto_init is enabled, it will call this for you.
   */
  void xtimer_init(void);
  
  /**
   * @brief Pause the execution of a thread for some seconds
   *
   * When called from an ISR, this function will spin and thus block the MCU in
   * interrupt context for the specified amount in *seconds*, so don't *ever* use
   * it there.
   *
   * @param[in] seconds   the amount of seconds the thread should sleep
   */
  static inline void xtimer_sleep(uint32_t seconds);
  
  /**
   * @brief Pause the execution of a thread for some microseconds
   *
   * When called from an ISR, this function will spin and thus block the MCU for
   * the specified amount in microseconds, so only use it there for *very* short
   * periods, e.g., less than XTIMER_BACKOFF.
   *
   * @param[in] microseconds  the amount of microseconds the thread should sleep
   */
  static inline void xtimer_usleep(uint32_t microseconds);
  
  /**
   * @brief Stop execution of a thread for some time
   *
   * Don't expect nanosecond accuracy. As of now, this function just calls
   * xtimer_usleep(nanoseconds/1000).
   *
   * When called from an ISR, this function will spin-block, so only use it there
   * for *very* short periods.
   *
   * @param[in] nanoseconds   the amount of nanoseconds the thread should sleep
   */
  static inline void xtimer_nanosleep(uint32_t nanoseconds);
  
  /**
   * @brief Stop execution of a thread for some time, 32bit version
   *
   * When called from an ISR, this function will spin and thus block the MCU for
   * the specified amount, so only use it there for *very* short periods,
   * e.g. less than XTIMER_BACKOFF.
   *
   * @param[in] ticks  number of ticks the thread should sleep
   */
  static inline void xtimer_tsleep32(xtimer_ticks32_t ticks);
  
  /**
   * @brief Stop execution of a thread for some time, 64bit version
   *
   * When called from an ISR, this function will spin and thus block the MCU for
   * the specified amount, so only use it there for *very* short periods,
   * e.g. less than XTIMER_BACKOFF.
   *
   * @param[in] ticks  number of ticks the thread should sleep
   */
  static inline void xtimer_tsleep64(xtimer_ticks64_t ticks);
  
  /**
   * @brief Stop execution of a thread for some time, blocking
   *
   * This function will spin-block, so only use it *very* short periods.
   *
   * @param[in] ticks  the number of xtimer ticks the thread should spin for
   */
  static inline void xtimer_spin(xtimer_ticks32_t ticks);
  
  /**
   * @brief will cause the calling thread to be suspended until the absolute
   * time (@p last_wakeup + @p period).
   *
   * When the function returns, @p last_wakeup is set to
   * (@p last_wakeup + @p period).
   *
   * This function can be used to create periodic wakeups.
   * @c last_wakeup should be set to xtimer_now() before first call of the
   * function.
   *
   * If the result of (@p last_wakeup + @p period) would be in the past, the function
   * sets @p last_wakeup to @p last_wakeup + @p period and returns immediately.
   *
   * @param[in] last_wakeup   base time stamp for the wakeup
   * @param[in] period        time in microseconds that will be added to last_wakeup
   */
  static inline void xtimer_periodic_wakeup(xtimer_ticks32_t *last_wakeup, uint32_t period);
  
  /**
   * @brief Set a timer that sends a message
   *
   * This function sets a timer that will send a message @p offset ticks
   * from now.
   *
   * The mesage struct specified by msg parameter will not be copied, e.g., it
   * needs to point to valid memory until the message has been delivered.
   *
   * @param[in] timer         timer struct to work with.
   *                          Its xtimer_t::target and xtimer_t::long_target
   *                          fields need to be initialized with 0 on first use.
   * @param[in] offset        microseconds from now
   * @param[in] msg           ptr to msg that will be sent
   * @param[in] target_pid    pid the message will be sent to
   */
  static inline void xtimer_set_msg(xtimer_t *timer, uint32_t offset, msg_t *msg, kernel_pid_t target_pid);
  
  /**
   * @brief Set a timer that sends a message, 64bit version
   *
   * This function sets a timer that will send a message @p offset microseconds
   * from now.
   *
   * The mesage struct specified by msg parameter will not be copied, e.g., it
   * needs to point to valid memory until the message has been delivered.
   *
   * @param[in] timer         timer struct to work with.
   *                          Its xtimer_t::target and xtimer_t::long_target
   *                          fields need to be initialized with 0 on first use.
   * @param[in] offset        microseconds from now
   * @param[in] msg           ptr to msg that will be sent
   * @param[in] target_pid    pid the message will be sent to
   */
  static inline void xtimer_set_msg64(xtimer_t *timer, uint64_t offset, msg_t *msg, kernel_pid_t target_pid);
  
  /**
   * @brief Set a timer that wakes up a thread
   *
   * This function sets a timer that will wake up a thread when the timer has
   * expired.
   *
   * @param[in] timer         timer struct to work with.
   *                          Its xtimer_t::target and xtimer_t::long_target
   *                          fields need to be initialized with 0 on first use
   * @param[in] offset        microseconds from now
   * @param[in] pid           pid of the thread that will be woken up
   */
  static inline void xtimer_set_wakeup(xtimer_t *timer, uint32_t offset, kernel_pid_t pid);
  
  /**
   * @brief Set a timer that wakes up a thread, 64bit version
   *
   * This function sets a timer that will wake up a thread when the timer has
   * expired.
   *
   * @param[in] timer         timer struct to work with.
   *                          Its xtimer_t::target and xtimer_t::long_target
   *                          fields need to be initialized with 0 on first use
   * @param[in] offset        microseconds from now
   * @param[in] pid           pid of the thread that will be woken up
   */
  static inline void xtimer_set_wakeup64(xtimer_t *timer, uint64_t offset, kernel_pid_t pid);
  
  /**
   * @brief Set a timer to execute a callback at some time in the future
   *
   * Expects timer->callback to be set.
   *
   * The callback specified in the timer struct will be executed @p offset
   * ticks in the future.
   *
   * @warning BEWARE! Callbacks from xtimer_set() are being executed in interrupt
   * context (unless offset < XTIMER_BACKOFF). DON'T USE THIS FUNCTION unless you
   * know *exactly* what that means.
   *
   * @param[in] timer     the timer structure to use.
   *                      Its xtimer_t::target and xtimer_t::long_target
   *                      fields need to be initialized with 0 on first use
   * @param[in] offset    time in microseconds from now specifying that timer's
   *                      callback's execution time
   */
  static inline void xtimer_set(xtimer_t *timer, uint32_t offset);
  
  /**
   * @brief remove a timer
   *
   * @note this function runs in O(n) with n being the number of active timers
   *
   * @param[in] timer ptr to timer structure that will be removed
   */
  void xtimer_remove(xtimer_t *timer);
  
  /**
   * @brief receive a message blocking but with timeout
   *
   * @param[out] msg      pointer to a msg_t which will be filled in case of
   *                      no timeout
   * @param[in]  timeout  timeout in microseconds relative
   *
   * @return     < 0 on error, other value otherwise
   */
  static inline int xtimer_msg_receive_timeout(msg_t *msg, uint32_t timeout);
  
  /**
   * @brief receive a message blocking but with timeout, 64bit version
   *
   * @param[out] msg      pointer to a msg_t which will be filled in case of no
   *                      timeout
   * @param[in]  timeout  timeout in microseconds relative
   *
   * @return     < 0 on error, other value otherwise
   */
  static inline int xtimer_msg_receive_timeout64(msg_t *msg, uint64_t timeout);
  
  /**
   * @brief Convert microseconds to xtimer ticks
   *
   * @param[in] usec  microseconds
   *
   * @return xtimer time stamp
   */
  static inline xtimer_ticks32_t xtimer_ticks_from_usec(uint32_t usec);
  
  /**
   * @brief Convert microseconds to xtimer ticks, 64 bit version
   *
   * @param[in] usec  microseconds
   *
   * @return xtimer time stamp
   */
  static inline xtimer_ticks64_t xtimer_ticks_from_usec64(uint64_t usec);
  
  /**
   * @brief Convert xtimer ticks to microseconds
   *
   * @param[in] ticks  xtimer time stamp
   *
   * @return microseconds
   */
  static inline uint32_t xtimer_usec_from_ticks(xtimer_ticks32_t ticks);
  
  /**
   * @brief Convert xtimer ticks to microseconds, 64 bit version
   *
   * @param[in] ticks  xtimer time stamp
   *
   * @return microseconds
   */
  static inline uint64_t xtimer_usec_from_ticks64(xtimer_ticks64_t ticks);
  
  /**
   * @brief Create an xtimer time stamp
   *
   * @param[in] ticks  number of xtimer ticks
   *
   * @return xtimer time stamp
   */
  static inline xtimer_ticks32_t xtimer_ticks(uint32_t ticks);
  
  /**
   * @brief Create an xtimer time stamp, 64 bit version
   *
   * @param[in] ticks  number of xtimer ticks
   *
   * @return xtimer time stamp
   */
  static inline xtimer_ticks64_t xtimer_ticks64(uint64_t ticks);
  
  /**
   * @brief Compute difference between two xtimer time stamps
   *
   * @param[in] a  left operand
   * @param[in] b  right operand
   *
   * @return @p a - @p b
   */
  static inline xtimer_ticks32_t xtimer_diff(xtimer_ticks32_t a, xtimer_ticks32_t b);
  
  /**
   * @brief Compute difference between two xtimer time stamps, 64 bit version
   *
   * @param[in] a  left operand
   * @param[in] b  right operand
   *
   * @return @p a - @p b
   */
  static inline xtimer_ticks64_t xtimer_diff64(xtimer_ticks64_t a, xtimer_ticks64_t b);
  
  /**
   * @brief Compute 32 bit difference between two 64 bit xtimer time stamps
   *
   * @param[in] a  left operand
   * @param[in] b  right operand
   *
   * @return @p a - @p b cast truncated to 32 bit
   */
  static inline xtimer_ticks32_t xtimer_diff32_64(xtimer_ticks64_t a, xtimer_ticks64_t b);
  
  /**
   * @brief Compare two xtimer time stamps
   *
   * @param[in] a  left operand
   * @param[in] b  right operand
   *
   * @return @p a < @p b
   */
  static inline bool xtimer_less(xtimer_ticks32_t a, xtimer_ticks32_t b);
  
  /**
   * @brief Compare two xtimer time stamps, 64 bit version
   *
   * @param[in] a  left operand
   * @param[in] b  right operand
   *
   * @return @p a < @p b
   */
  static inline bool xtimer_less64(xtimer_ticks64_t a, xtimer_ticks64_t b);
  
  /**
   * @brief xtimer backoff value
   *
   * All timers that are less than XTIMER_BACKOFF microseconds in the future will
   * just spin.
   *
   * This is supposed to be defined per-device in e.g., periph_conf.h.
   */
  #ifndef XTIMER_BACKOFF
  #define XTIMER_BACKOFF 30
  #endif
  
  /**
   * @brief xtimer overhead value, in hardware ticks
   *
   * This value specifies the time a timer will be late if uncorrected, e.g.,
   * the system-specific xtimer execution time from timer ISR to executing
   * a timer's callback's first instruction.
   *
   * E.g., with XTIMER_OVERHEAD == 0
   * start=xtimer_now();
   * xtimer_set(&timer, X);
   * (in callback:)
   * overhead=xtimer_now()-start-X;
   *
   * xtimer automatically substracts XTIMER_OVERHEAD from a timer's target time,
   * but when the timer triggers, xtimer will spin-lock until a timer's target
   * time is reached, so timers will never trigger early.
   *
   * This is supposed to be defined per-device in e.g., periph_conf.h.
   */
  #ifndef XTIMER_OVERHEAD
  #define XTIMER_OVERHEAD 20
  #endif
  
  #ifndef XTIMER_ISR_BACKOFF
  /**
   * @brief   xtimer IRQ backoff time, in hardware ticks
   *
   * When scheduling the next IRQ, if it is less than the backoff time
   * in the future, just spin.
   *
   * This is supposed to be defined per-device in e.g., periph_conf.h.
   */
  #define XTIMER_ISR_BACKOFF 20
  #endif
  
  #ifndef XTIMER_PERIODIC_SPIN
  /**
   * @brief   xtimer_periodic_wakeup spin cutoff
   *
   * If the difference between target time and now is less than this value, then
   * xtimer_periodic_wakeup will use xtimer_spin instead of setting a timer.
   */
  #define XTIMER_PERIODIC_SPIN (XTIMER_BACKOFF * 2)
  #endif
  
  #ifndef XTIMER_PERIODIC_RELATIVE
  /**
   * @brief   xtimer_periodic_wakeup relative target cutoff
   *
   * If the difference between target time and now is less than this value, then
   * xtimer_periodic_wakeup will set a relative target time in the future instead
   * of the true target.
   *
   * This is done to prevent target time underflows.
   */
  #define XTIMER_PERIODIC_RELATIVE (512)
  #endif
  
  #ifndef XTIMER_SHIFT
  /**
   * @brief   xtimer prescaler value
   *
   * If the underlying hardware timer is running at a power of two multiple of
   * 15625, XTIMER_SHIFT can be used to adjust the difference.
   *
   * For a 1 MHz hardware timer, set XTIMER_SHIFT to 0.
   *
   * For a 4 MHz hardware timer, set XTIMER_SHIFT to 2.
   * For a 16 MHz hardware timer, set XTIMER_SHIFT to 4.
   * For a 250 kHz hardware timer, set XTIMER_SHIFT to 2.
   *
   * The direction of the shift is handled by the macros in tick_conversion.h
   */
  #define XTIMER_SHIFT (0)
  #endif
  
  /*
   * Default xtimer configuration
   */
  #ifndef XTIMER_DEV
  /**
   * @brief Underlying hardware timer device to assign to xtimer
   */
  #define XTIMER_DEV TIMER_DEV(0)
  /**
   * @brief Underlying hardware timer channel to assign to xtimer
   */
  #define XTIMER_CHAN (0)
  
  #if (TIMER_0_MAX_VALUE) == 0xfffffful
  #define XTIMER_WIDTH (24)
  #elif (TIMER_0_MAX_VALUE) == 0xffff
  #define XTIMER_WIDTH (16)
  #endif
  
  #endif
  
  #ifndef XTIMER_WIDTH
  /**
   * @brief xtimer timer width
   *
   * This value specifies the width (in bits) of the hardware timer used by xtimer.
   * Default is 32.
   */
  #define XTIMER_WIDTH (32)
  #endif
  
  #if (XTIMER_WIDTH != 32) || DOXYGEN
  /**
   * @brief xtimer timer mask
   *
   * This value specifies the mask relative to 0xffffffff that the used timer
   * counts to, e.g., 0xffffffff & ~TIMER_MAXVALUE.
   *
   * For a 16bit timer, the mask would be 0xFFFF0000, for a 24bit timer, the mask
   * would be 0xFF000000.
   */
  #define XTIMER_MASK ((0xffffffff >> XTIMER_WIDTH) << XTIMER_WIDTH)
  #else
  #define XTIMER_MASK (0)
  #endif
  
  #ifndef XTIMER_HZ
  /**
   * @brief  Frequency of the underlying hardware timer
   */
  #define XTIMER_HZ 1000000ul
  #endif
  
  #include "xtimer/tick_conversion.h"
  
  #include "xtimer/implementation.h"
  
  #ifdef __cplusplus
  }
  #endif
  
  /** @} */
  #endif /* XTIMER_H */