zephyr/arch/common/timing_info_bench.c

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/*
* Copyright (c) 2017 Intel Corporation.
*
* SPDX-License-Identifier: Apache-2.0
*/
#include <kernel.h>
#include <kernel_internal.h>
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 <nrfx.h>
/* 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 <arch/arm/cortex_m/cmsis.h>
#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();
}