# Timer driver configuration options # Copyright (c) 2014-2015 Wind River Systems, Inc. # Copyright (c) 2016 Cadence Design Systems, Inc. # Copyright (c) 2019 Intel Corp. # SPDX-License-Identifier: Apache-2.0 if SYS_CLOCK_EXISTS menu "Timer drivers" config TIMER_HAS_64BIT_CYCLE_COUNTER bool help When this option is true, the k_cycle_get_64() call is available to provide values from a 64-bit cycle counter. config TIMER_READS_ITS_FREQUENCY_AT_RUNTIME bool "Timer queries its hardware to find its frequency at runtime" help The drivers select this option automatically when needed. Do not modify this unless you have a very good reason for it. config SYSTEM_CLOCK_SLOPPY_IDLE bool "Timer allowed to skew uptime clock during idle" help When true, the timer driver is not required to maintain a correct system uptime count when the system enters idle. Some platforms may take advantage of this to reduce the overhead from regular interrupts required to handle counter wraparound conditions. config SYSTEM_CLOCK_INIT_PRIORITY int "System clock driver initialization priority" default 0 help This options can be used to set a specific initialization priority value for the system clock driver. As driver initialization might need the clock to be running already, you should let the default value as it is (0). # Hidden option to be selected by individual SoC. config TICKLESS_CAPABLE bool help Timer drivers should select this flag if they are capable of supporting tickless operation. That is, a call to sys_clock_set_timeout() with a number of ticks greater than one should be expected not to produce a call to sys_clock_announce() (really, not to produce an interrupt at all) until the specified expiration. config SYSTEM_TIMER_HAS_DISABLE_SUPPORT bool help This option should be selected by drivers implementing support for sys_clock_disable() API. config SYSTEM_CLOCK_LOCK_FREE_COUNT bool help This option should be selected by drivers implementing a lock free cycle count accessor. This is needed for instrumenting spin lock hold times. source "drivers/timer/Kconfig.altera_avalon" source "drivers/timer/Kconfig.ambiq" source "drivers/timer/Kconfig.x86" source "drivers/timer/Kconfig.arcv2" source "drivers/timer/Kconfig.arm_arch" source "drivers/timer/Kconfig.cavs" source "drivers/timer/Kconfig.cc13xx_cc26xx_rtc" source "drivers/timer/Kconfig.cortex_m_systick" source "drivers/timer/Kconfig.esp32" source "drivers/timer/Kconfig.gecko" source "drivers/timer/Kconfig.ite_it8xxx2" source "drivers/timer/Kconfig.leon_gptimer" source "drivers/timer/Kconfig.litex" source "drivers/timer/Kconfig.mchp_xec_rtos" source "drivers/timer/Kconfig.mcux_gpt" source "drivers/timer/Kconfig.mcux_lptmr" source "drivers/timer/Kconfig.mcux_os" source "drivers/timer/Kconfig.mec5" source "drivers/timer/Kconfig.mips_cp0" source "drivers/timer/Kconfig.native_posix" source "drivers/timer/Kconfig.npcx_itim" source "drivers/timer/Kconfig.nrf_rtc" source "drivers/timer/Kconfig.nrf_grtc" source "drivers/timer/Kconfig.nrf_xrtc" source "drivers/timer/Kconfig.rcar_cmt" source "drivers/timer/Kconfig.riscv_machine" source "drivers/timer/Kconfig.rv32m1_lptmr" source "drivers/timer/Kconfig.sam0_rtc" source "drivers/timer/Kconfig.smartbond" source "drivers/timer/Kconfig.stm32_lptim" source "drivers/timer/Kconfig.ti_dm_timer" source "drivers/timer/Kconfig.xlnx_psttc" source "drivers/timer/Kconfig.xtensa" source "drivers/timer/Kconfig.mtk_adsp" source "drivers/timer/Kconfig.sy1xx_sys_timer" endmenu endif # SYS_CLOCK_EXISTS