zephyr/drivers/timer/Kconfig

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# Kconfig - timer driver configuration options
#
# Copyright (c) 2014-2015 Wind River Systems, Inc.
# Copyright (c) 2016 Cadence Design Systems, Inc.
#
# SPDX-License-Identifier: Apache-2.0
#
menu "Timer Drivers"
menuconfig HPET_TIMER
bool "HPET timer"
depends on (X86 || X86_64)
select IOAPIC if X86
select LOAPIC if X86
select TIMER_READS_ITS_FREQUENCY_AT_RUNTIME
select TICKLESS_CAPABLE
help
This option selects High Precision Event Timer (HPET) as a
system timer.
if HPET_TIMER
config HPET_TIMER_BASE_ADDRESS
hex "HPET Base Address"
default 0xFED00000
help
This options specifies the base address of the HPET timer device.
config HPET_TIMER_IRQ
int "HPET Timer IRQ"
default 2
help
This option specifies the IRQ used by the HPET timer.
config HPET_TIMER_IRQ_PRIORITY
int "HPET Timer IRQ Priority"
default 4
help
This option specifies the IRQ priority used by the HPET timer.
endif #HPET_TIMER
menuconfig LOAPIC_TIMER
bool "LOAPIC timer"
depends on (LOAPIC || MVIC) && X86
help
This option selects LOAPIC timer as a system timer.
if LOAPIC_TIMER
config LOAPIC_TIMER_IRQ
int "Local APIC Timer IRQ"
default 24
help
This option specifies the IRQ used by the LOAPIC timer.
config LOAPIC_TIMER_IRQ_PRIORITY
int "Local APIC Timer IRQ Priority"
default 2
help
This options specifies the IRQ priority used by the LOAPIC timer.
config TSC_CYCLES_PER_SEC
int "Frequency of x86 CPU timestamp counter"
default 0
help
The x86 implementation of LOAPIC k_cycle_get_32() relies on the x86 TSC.
This runs at the CPU speed and not the bus speed. If set to 0, the
value of CONFIG_SYS_CLOCK_HW_CYCLES_PER_SEC will be used instead;
many MCUs these values are the same.
endif #LOAPIC_TIMER
menuconfig ARCV2_TIMER
bool "ARC Timer"
default y
depends on ARC
select TICKLESS_CAPABLE
help
This module implements a kernel device driver for the ARCv2 processor timer 0
and provides the standard "system clock driver" interfaces.
config ARCV2_TIMER_IRQ_PRIORITY
int "ARC timer interrupt priority"
default 0
depends on ARCV2_TIMER
help
This option specifies the IRQ priority used by the ARC timer. Lower
values have higher priority.
config CORTEX_M_SYSTICK
bool "Cortex-M SYSTICK timer"
default y
depends on CPU_HAS_SYSTICK
select TICKLESS_CAPABLE
help
This module implements a kernel device driver for the Cortex-M processor
SYSTICK timer and provides the standard "system clock driver" interfaces.
config ALTERA_AVALON_TIMER
bool "Altera Avalon Interval Timer"
default y
depends on NIOS2
help
This module implements a kernel device driver for the Altera Avalon
Interval Timer as described in the Embedded IP documentation, for use
with Nios II and possibly other Altera soft CPUs. It provides the
standard "system clock driver" interfaces.
config NRF_RTC_TIMER
bool "nRF Real Time Counter (NRF_RTC1) Timer"
default y
depends on CLOCK_CONTROL_NRF
select TICKLESS_CAPABLE
help
This module implements a kernel device driver for the nRF Real Time
Counter NRF_RTC1 and provides the standard "system clock driver"
interfaces.
config RISCV_MACHINE_TIMER
bool "RISCV Machine Timer"
depends on SOC_FAMILY_RISCV_PRIVILEGE
select TICKLESS_CAPABLE
help
This module implements a kernel device driver for the generic RISCV machine
timer driver. It provides the standard "system clock driver" interfaces.
config RV32M1_LPTMR_TIMER
bool "RV32M1 LPTMR system timer driver"
default y
depends on SOC_OPENISA_RV32M1_RISCV32
depends on !TICKLESS_IDLE
depends on RV32M1_INTMUX
help
This module implements a kernel device driver for using the LPTMR
peripheral as the system clock. It provides the standard "system clock
driver" interfaces.
config NATIVE_POSIX_TIMER
bool "(POSIX) native_posix timer driver"
default y
depends on BOARD_NATIVE_POSIX
help
This module implements a kernel device driver for the native_posix HW timer
model
config XTENSA_TIMER
bool "Xtensa timer support"
depends on XTENSA
default y
select TICKLESS_CAPABLE
help
Enables a system timer driver for Xtensa based on the CCOUNT
and CCOMPARE special registers.
config XTENSA_TIMER_ID
int "System timer CCOMPAREn register index"
default 1
depends on XTENSA_TIMER
help
Index of the CCOMPARE register (and associated interrupt)
used for the system timer. Xtensa CPUs have hard-configured
interrupt priorities associated with each timer, and some of
them can be unmaskable (and thus not usable by OS code that
need synchronization, like the timer subsystem!). Choose
carefully. Generally you want the timer with the highest
priority maskable interrupt.
config SAM0_RTC_TIMER
bool "Atmel SAM0 series RTC timer"
depends on SOC_FAMILY_SAM0
select TICKLESS_CAPABLE
help
This module implements a kernel device driver for the Atmel SAM0
series Real Time Counter and provides the standard "system clock
driver" interfaces.
config SYSTEM_CLOCK_DISABLE
bool "API to disable system clock"
help
This option enables the sys_clock_disable() API in the kernel. It is
needed by some subsystems (which will automatically select it), but is
rarely needed by applications.
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_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).
config TICKLESS_CAPABLE
bool "Timer driver supports tickless operation"
help
Timer drivers should select this flag if they are capable of
supporting tickless operation. That is, a call to
z_clock_set_timeout() with a number of ticks greater than
one should be expected not to produce a call to
z_clock_announce() (really, not to produce an interrupt at
all) until the specified expiration.
config QEMU_TICKLESS_WORKAROUND
bool "Disable tickless on qemu due to asynchrony bug"
depends on QEMU_TARGET && TICKLESS_KERNEL
help
Qemu (without -icount) has trouble keeping time when the
host process needs to timeshare. The host OS will routinely
schedule out a process at timescales equivalent to the guest
tick rate. With traditional ticks delivered regularly by
the hardware, that's mostly OK as it looks like a late
interrupt. But in tickless mode, the driver needs some CPU
in order to schedule the tick in the first place. If that
gets delayed across a tick boundary, time gets wonky. This
tunable is a hint to the driver to disable tickless
accounting on qemu. Use it only on tests that are known to
have problems.
endmenu