/* * Copyright (c) 2017 Intel Corporation. * * SPDX-License-Identifier: Apache-2.0 */ #include #include u64_t z_arch_timing_swap_start; u64_t z_arch_timing_swap_end; u64_t z_arch_timing_irq_start; u64_t z_arch_timing_irq_end; u64_t z_arch_timing_tick_start; u64_t z_arch_timing_tick_end; u64_t z_arch_timing_enter_user_mode_end; /* location of the time stamps*/ u32_t z_arch_timing_value_swap_end; u64_t z_arch_timing_value_swap_common; u64_t z_arch_timing_value_swap_temp; #ifdef CONFIG_NRF_RTC_TIMER #include /* To get current count of timer, first 1 need to be written into * Capture Register and Current Count will be copied into corresponding * current count register. */ #define TIMING_INFO_PRE_READ() (NRF_TIMER2->TASKS_CAPTURE[0] = 1) #define TIMING_INFO_OS_GET_TIME() (NRF_TIMER2->CC[0]) #define TIMING_INFO_GET_TIMER_VALUE() (TIMING_INFO_OS_GET_TIME()) #define SUBTRACT_CLOCK_CYCLES(val) (val) #elif CONFIG_X86 #define TIMING_INFO_PRE_READ() #define TIMING_INFO_OS_GET_TIME() (z_tsc_read()) #define TIMING_INFO_GET_TIMER_VALUE() (TIMING_INFO_OS_GET_TIME()) #define SUBTRACT_CLOCK_CYCLES(val) (val) #elif CONFIG_ARM #include #define TIMING_INFO_PRE_READ() #define TIMING_INFO_OS_GET_TIME() (k_cycle_get_32()) #define TIMING_INFO_GET_TIMER_VALUE() (SysTick->VAL) #define SUBTRACT_CLOCK_CYCLES(val) (SysTick->LOAD - (u32_t)val) #elif CONFIG_ARC #define TIMING_INFO_PRE_READ() #define TIMING_INFO_OS_GET_TIME() (k_cycle_get_32()) #define TIMING_INFO_GET_TIMER_VALUE() (z_arc_v2_aux_reg_read(_ARC_V2_TMR0_COUNT)) #define SUBTRACT_CLOCK_CYCLES(val) ((u32_t)val) #elif CONFIG_NIOS2 #include "altera_avalon_timer_regs.h" #define TIMING_INFO_PRE_READ() \ (IOWR_ALTERA_AVALON_TIMER_SNAPL(TIMER_0_BASE, 10)) #define TIMING_INFO_OS_GET_TIME() (SUBTRACT_CLOCK_CYCLES(\ ((u32_t)IORD_ALTERA_AVALON_TIMER_SNAPH(TIMER_0_BASE) << 16)\ | ((u32_t)IORD_ALTERA_AVALON_TIMER_SNAPL(TIMER_0_BASE)))) #define TIMING_INFO_GET_TIMER_VALUE() (\ ((u32_t)IORD_ALTERA_AVALON_TIMER_SNAPH(TIMER_0_BASE) << 16)\ | ((u32_t)IORD_ALTERA_AVALON_TIMER_SNAPL(TIMER_0_BASE))) #define SUBTRACT_CLOCK_CYCLES(val) \ ((IORD_ALTERA_AVALON_TIMER_PERIODH(TIMER_0_BASE) \ << 16 | \ (IORD_ALTERA_AVALON_TIMER_PERIODL(TIMER_0_BASE))) \ - ((u32_t)val)) #else #define TIMING_INFO_PRE_READ() #define TIMING_INFO_OS_GET_TIME() (k_cycle_get_32()) #define TIMING_INFO_GET_TIMER_VALUE() (k_cycle_get_32()) #define SUBTRACT_CLOCK_CYCLES(val) ((u32_t)val) #endif /* CONFIG_NRF_RTC_TIMER */ void read_timer_start_of_swap(void) { if (z_arch_timing_value_swap_end == 1U) { TIMING_INFO_PRE_READ(); z_arch_timing_swap_start = (u32_t) TIMING_INFO_OS_GET_TIME(); } } void read_timer_end_of_swap(void) { if (z_arch_timing_value_swap_end == 1U) { TIMING_INFO_PRE_READ(); z_arch_timing_value_swap_end = 2U; z_arch_timing_value_swap_common = (u64_t)TIMING_INFO_OS_GET_TIME(); } } /* ARM processors read current value of time through sysTick timer * and nrf soc read it though timer */ void read_timer_start_of_isr(void) { TIMING_INFO_PRE_READ(); z_arch_timing_irq_start = (u32_t) TIMING_INFO_GET_TIMER_VALUE(); } void read_timer_end_of_isr(void) { TIMING_INFO_PRE_READ(); z_arch_timing_irq_end = (u32_t) TIMING_INFO_GET_TIMER_VALUE(); } void read_timer_start_of_tick_handler(void) { TIMING_INFO_PRE_READ(); z_arch_timing_tick_start = (u32_t)TIMING_INFO_GET_TIMER_VALUE(); } void read_timer_end_of_tick_handler(void) { TIMING_INFO_PRE_READ(); z_arch_timing_tick_end = (u32_t) TIMING_INFO_GET_TIMER_VALUE(); } void read_timer_end_of_userspace_enter(void) { TIMING_INFO_PRE_READ(); z_arch_timing_enter_user_mode_end = (u32_t) TIMING_INFO_GET_TIMER_VALUE(); }