#ifndef ZEPHYR_LEGACY_SET_TIME_H__ #define ZEPHYR_LEGACY_SET_TIME_H__ /* Stub implementation of z_clock_set_timeout() and z_clock_elapsed() * in terms of the original APIs. Used by older timer drivers. * Should be replaced. * * Yes, this "header" includes function definitions and must be * included only once in a single compilation. */ #ifdef CONFIG_TICKLESS_IDLE void _timer_idle_enter(s32_t ticks); void z_clock_idle_exit(void); #endif #ifdef CONFIG_TICKLESS_KERNEL void _set_time(u32_t time); extern u32_t _get_program_time(void); extern u32_t _get_remaining_program_time(void); extern u32_t _get_elapsed_program_time(void); #endif extern u64_t z_clock_uptime(void); void z_clock_set_timeout(s32_t ticks, bool idle) { #ifdef CONFIG_TICKLESS_KERNEL if (idle) { _timer_idle_enter(ticks); } else { _set_time(ticks == K_FOREVER ? 0 : ticks); } #endif } /* The old driver "now" API would return a full uptime value. The new * one only requires the driver to track ticks since the last announce * call. Implement the new call in terms of the old one on legacy * drivers by keeping (yet another) uptime value locally. */ static u32_t driver_uptime; u32_t z_clock_elapsed(void) { #ifdef TICKLESS_KERNEL return (u32_t)(z_clock_uptime() - driver_uptime); #else return 0; #endif } static void wrapped_announce(s32_t ticks) { driver_uptime += ticks; z_clock_announce(ticks); } #define z_clock_announce(t) wrapped_announce(t) #define _sys_clock_always_on (0) static inline void z_tick_set(s64_t val) { /* noop with current kernel code, use z_clock_announce() */ ARG_UNUSED(val); } #endif /* ZEPHYR_LEGACY_SET_TIME_H__ */