44da029e31c34416a51356b107675573/doc-preview/ztimer64_2xtimer__compat_8h_source.html

 /*

  * Copyright (C) 2019 Kaspar Schleiser <kaspar@schleiser.de>

  *

  * 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.

  */


 #ifndef ZTIMER64_XTIMER_COMPAT_H

 #define ZTIMER64_XTIMER_COMPAT_H


 #include <assert.h>

 #include <stdbool.h>

 #include <stdint.h>


 /* make sure to overwrite potentially conflicting XTIMER_WIDTH definition from

  * board.h by eagerly including it */

 #include "board.h"

 #include "div.h"

 #include "timex.h"

 #ifdef MODULE_CORE_MSG

 #include "msg.h"

 #endif /* MODULE_CORE_MSG */

 #include "mutex.h"

 #include "sched.h"


 #include "ztimer.h"

 #include "ztimer64.h"


 #ifdef __cplusplus

 extern "C" {

 #endif


 /* the xtimer API is documented elsewhere. This is just an (incomplete) wrapper,

  * so skip doxygen.

  */

 #ifndef DOXYGEN


 /* ztimer clocks with width lower than 32 bit get extended to 32 bit in software

  * via ztimer_extend. So no matter what was defined elsewhere, we overwrite it

  */

 #ifdef XTIMER_WIDTH

 #undef XTIMER_WIDTH

 #endif


 #define XTIMER_WIDTH    (32)

 #define XTIMER_MASK     (0)


 #ifndef XTIMER_BACKOFF

 #define XTIMER_BACKOFF  1

 #endif


 typedef ztimer64_t xtimer_t;

 typedef uint32_t xtimer_ticks32_t;

 typedef uint64_t xtimer_ticks64_t;

 typedef void (*xtimer_callback_t)(void *);


 static inline void xtimer_init(void)

 {

     ztimer64_init();

 }


 static inline xtimer_ticks32_t xtimer_ticks(uint32_t ticks)

 {

     return ticks;

 }


 static inline xtimer_ticks32_t xtimer_now(void)

 {

     return ztimer64_now(ZTIMER64_USEC);

 }


 static inline uint32_t _xtimer_now(void)

 {

     return ztimer64_now(ZTIMER64_USEC);

 }


 static inline xtimer_ticks64_t xtimer_now64(void)

 {

     return ztimer64_now(ZTIMER64_USEC);

 }


 static inline void xtimer_usleep64(uint64_t microseconds)

 {

     ztimer64_sleep(ZTIMER64_USEC, microseconds);

 }


 static inline uint32_t xtimer_now_usec(void)

 {

     return ztimer64_now(ZTIMER64_USEC);

 }


 static inline uint64_t xtimer_now_usec64(void)

 {

     return ztimer64_now(ZTIMER64_USEC);

 }


 static inline void xtimer_sleep(uint32_t seconds)

 {

     /* TODO: use ZTIMER64_SEC */

     if (IS_ACTIVE(MODULE_ZTIMER64_MSEC)) {

         ztimer64_sleep(ZTIMER64_MSEC, ((uint64_t)seconds) * 1000LLU);

     }

     else {

         ztimer64_sleep(ZTIMER64_USEC, ((uint64_t)seconds) * 1000000LLU);

     }

 }


 static inline void xtimer_msleep(uint32_t milliseconds)

 {

     if (IS_ACTIVE(MODULE_ZTIMER_MSEC)) {

         ztimer_sleep(ZTIMER_MSEC, milliseconds);

     }

     else {

         ztimer64_sleep(ZTIMER64_USEC, ((uint64_t)milliseconds) * 1000LLU);

     }

 }


 static inline void xtimer_usleep(uint32_t microseconds)

 {

     ztimer_sleep(ZTIMER_USEC, microseconds);

 }


 static inline void xtimer_nanosleep(uint32_t nanoseconds)

 {

     ztimer_sleep(ZTIMER_USEC, nanoseconds / NS_PER_US);

 }


 static inline void xtimer_set(xtimer_t *timer, uint32_t offset)

 {

     ztimer64_set(ZTIMER64_USEC, timer, offset);

 }


 static inline void xtimer_remove(xtimer_t *timer)

 {

     ztimer64_remove(ZTIMER64_USEC, timer);

 }


 static inline bool xtimer_is_set(const xtimer_t *timer)

 {

     return ztimer64_is_set(timer);

 }


 static inline void xtimer_set_msg(xtimer_t *timer, uint32_t offset, msg_t *msg,

                                   kernel_pid_t target_pid)

 {

     ztimer64_set_msg(ZTIMER64_USEC, timer, offset, msg, target_pid);

 }


 static inline void xtimer_periodic_wakeup(xtimer_ticks32_t *last_wakeup,

                                           uint32_t period)

 {

     ztimer_periodic_wakeup(ZTIMER_USEC, last_wakeup, period);

 }


 static inline uint32_t xtimer_usec_from_ticks(xtimer_ticks32_t ticks)

 {

     return ticks;

 }


 static inline xtimer_ticks32_t xtimer_ticks_from_usec(uint32_t usec)

 {

     return usec;

 }


 static inline void xtimer_now_timex(timex_t *out)

 {

     uint64_t now = xtimer_now_usec64();


     out->seconds = div_u64_by_1000000(now);

     out->microseconds = now - (out->seconds * US_PER_SEC);

 }


 static inline int xtimer_msg_receive_timeout(msg_t *msg, uint32_t timeout)

 {

     return ztimer_msg_receive_timeout(ZTIMER_USEC, msg, timeout);

 }


 static inline void xtimer_set_wakeup(xtimer_t *timer, uint32_t offset,

                                      kernel_pid_t pid)

 {

     ztimer64_set_wakeup(ZTIMER64_USEC, timer, offset, pid);

 }


 static inline int xtimer_mutex_lock_timeout(mutex_t *mutex, uint64_t us)

 {

     if (ztimer64_mutex_lock_timeout(ZTIMER64_USEC, mutex, us)) {

         /* Impedance matching required: Convert -ECANCELED error code to -1: */

         return -1;

     }

     return 0;

 }


 static inline int xtimer_rmutex_lock_timeout(rmutex_t *rmutex, uint64_t timeout)

 {

     if (ztimer64_rmutex_lock_timeout(ZTIMER64_USEC, rmutex, timeout)) {

         /* Impedance matching required: Convert -ECANCELED error code to -1: */

         return -1;

     }

     return 0;

 }


 static inline void xtimer_set_timeout_flag64(xtimer_t *t, uint64_t timeout)

 {

     ztimer64_set_timeout_flag(ZTIMER64_USEC, t, timeout);

 }


 static inline void xtimer_set_timeout_flag(xtimer_t *t, uint32_t timeout)

 {

     xtimer_set_timeout_flag64(t, timeout);

 }


 static inline void xtimer_spin(xtimer_ticks32_t ticks)

 {

     assert(ticks < US_PER_MS);

     ztimer_now_t start = ztimer_now(ZTIMER_USEC);


     while (ztimer_now(ZTIMER_USEC) - start < ticks) {

         /* busy waiting */

     }

 }


 static inline xtimer_ticks32_t xtimer_diff(xtimer_ticks32_t a,

                                            xtimer_ticks32_t b)

 {

     return a - b;

 }


 static inline xtimer_ticks64_t xtimer_diff64(xtimer_ticks64_t a,

                                              xtimer_ticks64_t b)

 {

     return a - b;

 }


 static inline xtimer_ticks32_t xtimer_diff32_64(xtimer_ticks64_t a,

                                                 xtimer_ticks64_t b)

 {

     return (xtimer_ticks32_t)(a - b);

 }


 static inline xtimer_ticks64_t xtimer_ticks64(uint64_t ticks)

 {

     return ticks;

 }


 static inline bool xtimer_less(xtimer_ticks32_t a, xtimer_ticks32_t b)

 {

     return a < b;

 }


 static inline bool xtimer_less64(xtimer_ticks64_t a, xtimer_ticks64_t b)

 {

     return a < b;

 }


 static inline void xtimer_set64(xtimer_t *timer, uint64_t offset_us)

 {

     ztimer64_set(ZTIMER64_USEC, timer, offset_us);

 }


 static inline void xtimer_tsleep32(xtimer_ticks32_t ticks)

 {

     ztimer_sleep(ZTIMER_USEC, ticks);

 }


 static inline void xtimer_tsleep64(xtimer_ticks64_t ticks)

 {

     ztimer64_sleep(ZTIMER64_USEC, ticks);

 }


 static inline void xtimer_set_wakeup64(xtimer_t *timer, uint64_t offset,

                                        kernel_pid_t pid)

 {

     ztimer64_set_wakeup(ZTIMER64_USEC, timer, offset, pid);

 }


 #if defined(MODULE_CORE_MSG) || defined(DOXYGEN)

 static inline void xtimer_set_msg64(xtimer_t *timer, uint64_t offset,

                                     msg_t *msg, kernel_pid_t target_pid)

 {

     ztimer64_set_msg(ZTIMER64_USEC, timer, offset, msg, target_pid);

 }


 static inline int xtimer_msg_receive_timeout64(msg_t *msg, uint64_t timeout)

 {

     return ztimer64_msg_receive_timeout(ZTIMER64_USEC, msg, timeout);

 }


 #endif


 #endif /* DOXYGEN */


 #ifdef __cplusplus

 }

 #endif


 #endif /* ZTIMER64_XTIMER_COMPAT_H */

assert.h
POSIX.1-2008 compliant version of the assert macro.

assert
#define assert(cond)
abort the program if assertion is false
Definition: assert.h:136

div.h

div_u64_by_1000000
static uint64_t div_u64_by_1000000(uint64_t val)
Integer divide val by 1000000.
Definition: div.h:111

kernel_pid_t
int16_t kernel_pid_t
Unique process identifier.
Definition: sched.h:139

US_PER_MS
#define US_PER_MS
The number of microseconds per millisecond.
Definition: time_units.h:90

US_PER_SEC
#define US_PER_SEC
The number of microseconds per second.
Definition: time_units.h:85

NS_PER_US
#define NS_PER_US
The number of nanoseconds per microsecond.
Definition: time_units.h:100

xtimer_set_timeout_flag64
void xtimer_set_timeout_flag64(xtimer_t *t, uint64_t timeout)
Set timeout thread flag after timeout.

xtimer_usleep
static void xtimer_usleep(uint32_t microseconds)
Pause the execution of a thread for some microseconds.

xtimer_diff
static xtimer_ticks32_t xtimer_diff(xtimer_ticks32_t a, xtimer_ticks32_t b)
Compute difference between two xtimer time stamps.

xtimer_now_usec
static uint32_t xtimer_now_usec(void)
get the current system time in microseconds since start

xtimer_set_msg64
static void xtimer_set_msg64(xtimer_t *timer, uint64_t offset, msg_t *msg, kernel_pid_t target_pid)
Set a timer that sends a message, 64bit version.

xtimer_remove
void xtimer_remove(xtimer_t *timer)
remove a timer

xtimer_set_wakeup64
static void xtimer_set_wakeup64(xtimer_t *timer, uint64_t offset, kernel_pid_t pid)
Set a timer that wakes up a thread, 64bit version.

xtimer_less64
static bool xtimer_less64(xtimer_ticks64_t a, xtimer_ticks64_t b)
Compare two xtimer time stamps, 64 bit version.

xtimer_now64
static xtimer_ticks64_t xtimer_now64(void)
get the current system time as 64bit time stamp

xtimer_set64
static void xtimer_set64(xtimer_t *timer, uint64_t offset_us)
Set a timer to execute a callback at some time in the future, 64bit version.

xtimer_callback_t
void(* xtimer_callback_t)(void *)
xtimer callback type
Definition: xtimer.h:92

xtimer_tsleep32
static void xtimer_tsleep32(xtimer_ticks32_t ticks)
Stop execution of a thread for some time, 32bit version.

xtimer_msleep
static void xtimer_msleep(uint32_t milliseconds)
Pause the execution of a thread for some milliseconds.

xtimer_sleep
static void xtimer_sleep(uint32_t seconds)
Pause the execution of a thread for some seconds.

xtimer_diff32_64
static xtimer_ticks32_t xtimer_diff32_64(xtimer_ticks64_t a, xtimer_ticks64_t b)
Compute 32 bit difference between two 64 bit xtimer time stamps.

xtimer_rmutex_lock_timeout
int xtimer_rmutex_lock_timeout(rmutex_t *rmutex, uint64_t us)
lock a rmutex but with timeout

xtimer_ticks64
static xtimer_ticks64_t xtimer_ticks64(uint64_t ticks)
Create an xtimer time stamp, 64 bit version.

xtimer_periodic_wakeup
static void xtimer_periodic_wakeup(xtimer_ticks32_t *last_wakeup, uint32_t period)
will cause the calling thread to be suspended until the absolute time (last_wakeup + period).

xtimer_set_msg
static void xtimer_set_msg(xtimer_t *timer, uint32_t offset, msg_t *msg, kernel_pid_t target_pid)
Set a timer that sends a message.

xtimer_less
static bool xtimer_less(xtimer_ticks32_t a, xtimer_ticks32_t b)
Compare two xtimer time stamps.

xtimer_usec_from_ticks
static uint32_t xtimer_usec_from_ticks(xtimer_ticks32_t ticks)
Convert xtimer ticks to microseconds.

xtimer_diff64
static xtimer_ticks64_t xtimer_diff64(xtimer_ticks64_t a, xtimer_ticks64_t b)
Compute difference between two xtimer time stamps, 64 bit version.

xtimer_mutex_lock_timeout
int xtimer_mutex_lock_timeout(mutex_t *mutex, uint64_t us)
lock a mutex but with timeout

xtimer_usleep64
static void xtimer_usleep64(uint64_t microseconds)
Pause the execution of a thread for some microseconds.

xtimer_msg_receive_timeout
static int xtimer_msg_receive_timeout(msg_t *msg, uint32_t timeout)
receive a message blocking but with timeout

xtimer_now_timex
void xtimer_now_timex(timex_t *out)
get the current system time into a timex_t

xtimer_set_timeout_flag
void xtimer_set_timeout_flag(xtimer_t *t, uint32_t timeout)
Set timeout thread flag after timeout.

xtimer_tsleep64
static void xtimer_tsleep64(xtimer_ticks64_t ticks)
Stop execution of a thread for some time, 64bit version.

xtimer_nanosleep
static void xtimer_nanosleep(uint32_t nanoseconds)
Stop execution of a thread for some time.

xtimer_set_wakeup
static void xtimer_set_wakeup(xtimer_t *timer, uint32_t offset, kernel_pid_t pid)
Set a timer that wakes up a thread.

xtimer_init
void xtimer_init(void)
xtimer initialization function

xtimer_spin
static void xtimer_spin(xtimer_ticks32_t ticks)
Stop execution of a thread for some time, blocking.

xtimer_now_usec64
static uint64_t xtimer_now_usec64(void)
get the current system time in microseconds since start

xtimer_set
static void xtimer_set(xtimer_t *timer, uint32_t offset)
Set a timer to execute a callback at some time in the future.

xtimer_ticks_from_usec
static xtimer_ticks32_t xtimer_ticks_from_usec(uint32_t usec)
Convert microseconds to xtimer ticks.

xtimer_t
struct xtimer xtimer_t
xtimer timer structure

xtimer_ticks
static xtimer_ticks32_t xtimer_ticks(uint32_t ticks)
Create an xtimer time stamp.

xtimer_now
static xtimer_ticks32_t xtimer_now(void)
get the current system time as 32bit time stamp value

xtimer_is_set
static bool xtimer_is_set(const xtimer_t *timer)
state if an xtimer is currently set (waiting to be expired)

xtimer_msg_receive_timeout64
static int xtimer_msg_receive_timeout64(msg_t *msg, uint64_t timeout)
receive a message blocking but with timeout, 64bit version

ztimer64_init
void ztimer64_init(void)
Initialize the board-specific default ztimer configuration.

ztimer64_is_set
unsigned ztimer64_is_set(const ztimer64_t *timer)
Check if a timer is currently active.

ztimer64_set_wakeup
static void ztimer64_set_wakeup(ztimer64_clock_t *clock, ztimer64_t *timer, uint64_t offset, kernel_pid_t pid)
Set a timer that wakes up a thread (relative version)
Definition: ztimer64.h:379

ztimer64_remove
void ztimer64_remove(ztimer64_clock_t *clock, ztimer64_t *timer)
Remove a timer from a clock.

ztimer64_set_timeout_flag
static void ztimer64_set_timeout_flag(ztimer64_clock_t *clock, ztimer64_t *timer, uint64_t timeout)
Set timeout thread flag after timeout.
Definition: ztimer64.h:410

ztimer64_now
uint64_t ztimer64_now(ztimer64_clock_t *clock)
Get the current time from a clock.

ztimer64_set_msg
static void ztimer64_set_msg(ztimer64_clock_t *clock, ztimer64_t *timer, uint64_t offset, msg_t *msg, kernel_pid_t target_pid)
Post a message after a delay (relative version)
Definition: ztimer64.h:242

ztimer64_msg_receive_timeout
static int ztimer64_msg_receive_timeout(ztimer64_clock_t *clock, msg_t *msg, uint64_t timeout)
receive a message (blocking, with relative timeout)
Definition: ztimer64.h:288

ztimer64_mutex_lock_timeout
static int ztimer64_mutex_lock_timeout(ztimer64_clock_t *clock, mutex_t *mutex, uint64_t timeout)
Try to lock the given mutex, but give up after timeout.
Definition: ztimer64.h:441

ztimer64_set
static void ztimer64_set(ztimer64_clock_t *clock, ztimer64_t *timer, uint64_t offset)
Set a timer on a clock (relative version)
Definition: ztimer64.h:179

ztimer64_sleep
static void ztimer64_sleep(ztimer64_clock_t *clock, uint64_t duration)
Put the calling thread to sleep for the specified number of ticks.
Definition: ztimer64.h:335

ztimer64_rmutex_lock_timeout
static int ztimer64_rmutex_lock_timeout(ztimer64_clock_t *clock, rmutex_t *rmutex, uint64_t timeout)
Try to lock the given rmutex, but give up after timeout.
Definition: ztimer64.h:472

ZTIMER64_USEC
ztimer64_clock_t *const ZTIMER64_USEC
Default ztimer microsecond clock.

ZTIMER64_MSEC
ztimer64_clock_t *const ZTIMER64_MSEC
Default ztimer millisecond clock.

ztimer_periodic_wakeup
void ztimer_periodic_wakeup(ztimer_clock_t *clock, uint32_t *last_wakeup, uint32_t period)
Suspend the calling thread until the time (last_wakeup + period)

ZTIMER_USEC
ztimer_clock_t *const ZTIMER_USEC
Default ztimer microsecond clock.

ztimer_now_t
uint32_t ztimer_now_t
type for ztimer_now() result
Definition: ztimer.h:311

ztimer_now
static ztimer_now_t ztimer_now(ztimer_clock_t *clock)
Get the current time from a clock.
Definition: ztimer.h:683

ztimer_msg_receive_timeout
int ztimer_msg_receive_timeout(ztimer_clock_t *clock, msg_t *msg, uint32_t timeout)
receive a message (blocking, with timeout)

ztimer_sleep
void ztimer_sleep(ztimer_clock_t *clock, uint32_t duration)
Put the calling thread to sleep for the specified number of ticks.

ZTIMER_MSEC
ztimer_clock_t *const ZTIMER_MSEC
Default ztimer millisecond clock.

_xtimer_now
uint32_t _xtimer_now(void)
xtimer internal stuff

IS_ACTIVE
#define IS_ACTIVE(macro)
Allows to verify a macro definition outside the preprocessor.
Definition: modules.h:60

mutex.h
Mutex for thread synchronization.

riot::now
time_point now()
Returns the current time saved in a time point.
Definition: chrono.hpp:104

sched.h
Scheduler API definition.

msg_t
Describes a message object which can be sent between threads.
Definition: msg.h:196

mutex_t
Mutex structure.
Definition: mutex.h:146

rmutex_t
Mutex structure.
Definition: rmutex.h:38

timex_t
A timex timestamp.
Definition: timex.h:49

timex_t::seconds
uint32_t seconds
number of seconds
Definition: timex.h:50

timex_t::microseconds
uint32_t microseconds
number of microseconds
Definition: timex.h:51

xtimer_ticks32_t
xtimer timestamp (32 bit)
Definition: xtimer.h:85

xtimer_ticks64_t
xtimer timestamp (64 bit)
Definition: xtimer.h:76

xtimer
xtimer timer structure
Definition: xtimer.h:97

ztimer64_t
ztimer64 structure
Definition: ztimer64.h:101

timex.h
Utility library for comparing and computing timestamps.

ztimer64.h
ztimer 64bit API

ztimer.h
ztimer API