incubator-nuttx/drivers/timers/Kconfig

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#
# For a description of the syntax of this configuration file,
# see the file kconfig-language.txt in the NuttX tools repository.
#
menu "Timer Driver Support"
config TIMER
bool "Timer Support"
default n
---help---
This selection enables building of the "upper-half" timer
driver. See include/nuttx/timers/timer.h for further timer driver
information.
if TIMER
config TIMER_ARCH
bool "Timer Arch Implementation"
select ARCH_HAVE_TICKLESS
select ARCH_HAVE_TIMEKEEPING
---help---
Implement timer arch API on top of timer driver interface.
endif # TIMER
config ONESHOT
bool "Oneshot timer driver"
default n
---help---
This selection enables building of the "upper-half" oneshot timer
driver. See include/nuttx/timers/oneshot.h for further oneshot timer
driver information.
if ONESHOT
config ALARM_ARCH
bool "Alarm Arch Implementation"
select ARCH_HAVE_TICKLESS
select ARCH_HAVE_TIMEKEEPING
---help---
Implement alarm arch API on top of oneshot driver interface.
endif # ONESHOT
menuconfig RTC
bool "RTC Driver Support"
default n
---help---
This selection enables configuration of a real time clock (RTCdriver.
See include/nuttx/timers/rtc.h for further RTC driver information.
Most RTC drivers are MCU specific and may require other specific
settings.
if RTC
config RTC_DATETIME
bool "Date/Time RTC Support"
default n
---help---
There are two general types of RTC: (1) A simple battery backed
counter that keeps the time when power is down, and (2) a full
date / time RTC the provides the date and time information, often in
BCD format. If RTC_DATETIME is selected, it specifies this second kind
of RTC. In this case, the RTC is used to "seed" the normal NuttX timer
and the NuttX system timer provides for higher resolution time.
if !RTC_DATETIME
config RTC_HIRES
bool "Hi-Res RTC Support"
default n
---help---
If RTC_DATETIME not selected, then the simple, battery backed counter
is used. There are two different implementations of such simple
counters based on the time resolution of the counter: The typical RTC
keeps time to resolution of 1 second, usually supporting a 32-bit
time_t value. In this case, the RTC is used to "seed" the normal NuttX
timer and the NuttX timer provides for higherresoution time.
If RTC_HIRES is enabled in the NuttX configuration, then the RTC
provides higher resolution time and completely replaces the system
timer for purpose of date and time.
config RTC_FREQUENCY
int "Hi-Res RTC frequency"
default 1
depends on RTC_HIRES
---help---
If RTC_HIRES is defined, then the frequency of the high resolution RTC
must be provided. If RTC_HIRES is not defined, RTC_FREQUENCY is
assumed to be one Hz.
endif # !RTC_DATETIME
config RTC_ALARM
bool "RTC Alarm Support"
default n
---help---
Enable if the RTC hardware supports setting of an alarm. A callback
function will be executed when the alarm goes off.
config RTC_NALARMS
int "Number of alarms"
default 1
depends on RTC_ALARM
---help---
Number of alarms supported by the hardware.
config RTC_DRIVER
bool "RTC Driver Support"
default n
---help---
This selection enables building of the "upper-half" RTC
driver. See include/nuttx/timers/rtc.h for further RTC driver
information.
if RTC_DRIVER
config RTC_ARCH
bool "RTC Arch Implementation"
default n
---help---
Implement RTC arch API on top of RTC driver interface.
config RTC_PERIODIC
bool "RTC Periodic Interrupts"
default n
---help---
Add interrupt controls for RTCs that support periodic interrupts.
config RTC_IOCTL
bool "RTC IOCTLs"
default n
---help---
Support the RTC interface ioctl() method. This allows you to add
architecture-specific RTC operations to the RTC interface
endif # RTC_DRIVER
config RTC_EXTERNAL
bool "External RTC Support"
default n
---help---
In modern MCUs, the RTC is usually implement as an internal
peripheral to the MCU. An option is to use an external RTC
connected to the MCU typically via SPI or I2C.
If an external RTC is connect to the MCU through some bus, then the
RTC will not be available to the system until after the system
fully boots up and is able to access the bus. In that case, this
setting must be included to suppress attempts to initialize the RTC
early in the boot sequence.
config RTC_DSXXXX
bool "DS130x/DS323x RTC Driver"
default n
select I2C
select RTC_DATETIME
depends on RTC_EXTERNAL
---help---
Enables support for the Maxim Integrated DS3231 I2C RTC timer.
if RTC_DSXXXX
choice
prompt "Maxim Integrated RTC"
default RTC_DS3231
config RTC_DS1302
bool "DS1302"
---help---
Enables support for the Maxim Integrated DS1302 serial RTC timer.
config RTC_DS1307
bool "DS1307"
---help---
Enables support for the Maxim Integrated DS1307 I2C RTC timer.
config RTC_DS3231
bool "DS3231"
---help---
Enables support for the Maxim Integrated DS3231 I2C RTC timer.
config RTC_DS3232
bool "DS3232"
---help---
Enables support for the Maxim Integrated DS3232 I2C RTC timer.
config RTC_DS3234
bool "DS3234"
depends on EXPERIMENTAL
---help---
Enables support for the Maxim Integrated DS3234 SPI RTC timer.
Not yet implemented.
endchoice # Maxim Integrated RTC
config DS3231_I2C_FREQUENCY
int "DS1307/DS323x I2C frequency"
default 400000
range 1 400000
endif # RTC_DSXXXX
config RTC_PCF85263
bool "PCF85263 RTC Driver"
default n
select I2C
select RTC_DATETIME
depends on RTC_EXTERNAL
---help---
Enables support for the NXP PCF85263 I2C RTC timer.
if RTC_PCF85263
config PCF85263_I2C_FREQUENCY
int "PCF85263 I2C frequency"
default 400000
range 1 400000
endif # RTC_PCF85263
config RTC_MCP794XX
bool "MCP794XX RTC Driver"
default n
select I2C
select RTC_DATETIME
depends on RTC_EXTERNAL
---help---
Enables support for the Microchip MCP794XX I2C RTC timer.
if RTC_MCP794XX
config MCP794XX_I2C_FREQUENCY
int "MCP794XX I2C frequency"
default 400000
range 1 400000
endif # RTC_MCP794XX
endif # RTC
menuconfig WATCHDOG
bool "Watchdog Timer Support"
default n
---help---
This selection enables building of the "upper-half" watchdog timer
driver. See include/nuttx/timers/watchdog.h for further watchdog timer driver
information.
if WATCHDOG
config WATCHDOG_DEVPATH
string "Watchdog Device Path"
default "/dev/watchdog0"
config WATCHDOG_AUTOMONITOR
bool "Auto-monitor"
---help---
The auto-monitor provides an OS-internal mechanism for automatically
start and repeatly reset the counting after the watchdog is register.
if WATCHDOG_AUTOMONITOR
config WATCHDOG_AUTOMONITOR_TIMEOUT
int "Auto-monitor reset timeout(second)"
default 60
choice
prompt "Auto-monitor keepalive by"
default WATCHDOG_AUTOMONITOR_BY_TIMER
config WATCHDOG_AUTOMONITOR_BY_CAPTURE
bool "Capture callback"
config WATCHDOG_AUTOMONITOR_BY_TIMER
bool "Timer callback"
config WATCHDOG_AUTOMONITOR_BY_WORKER
bool "Worker callback"
depends on SCHED_WORKQUEUE
config WATCHDOG_AUTOMONITOR_BY_IDLE
bool "Idle callback"
depends on PM
endchoice
endif # WATCHDOG_AUTOMONITOR
endif # WATCHDOG
config TIMERS_CS2100CP
bool "CS2100-CP Fraction-N Clock Multiplier"
depends on I2C
if TIMERS_CS2100CP
config CS2100CP_DEBUG
bool "Enable CS2100-CP Debug Features"
depends on DEBUG_FEATURES
config CS2100CP_REGDEBUG
bool "Enable CS2100-CP Register Debug"
depends on DEBUG_FEATURES
endif # TIMERS_CS2100CP
endmenu # Timer Driver Support