osd-contiki/cpu/stm32w108/hal/micro/cortexm3/micro-common.h

291 lines
9.8 KiB
C
Raw Permalink Normal View History

2010-10-25 11:03:38 +02:00
/** @file hal/micro/cortexm3/micro-common.h
* @brief Utility and convenience functions for STM32W108 microcontroller,
* common to both the full and minimal hal.
* See @ref micro for documentation.
*
* <!--(C) COPYRIGHT 2010 STMicroelectronics. All rights reserved. -->
*/
/** @addtogroup micro
* See also hal/micro/cortexm3/micro.h for source code.
*@{
*/
#ifndef STM32W108XX_MICRO_COMMON_H_
#define STM32W108XX_MICRO_COMMON_H_
2010-10-25 11:03:38 +02:00
#ifndef DOXYGEN_SHOULD_SKIP_THIS
#ifndef __STSTATUS_TYPE__
#define __STSTATUS_TYPE__
//This is necessary here because halSleepForQsWithOptions returns an
//StStatus and not adding this typedef to this file breaks a
//whole lot of builds.
typedef uint8_t StStatus;
2010-10-25 11:03:38 +02:00
#endif //__STSTATUS_TYPE__
#endif // DOXYGEN_SHOULD_SKIP_THIS
2011-03-21 13:11:52 +01:00
#define PORTA (0 << 3)
#define PORTB (1 << 3)
#define PORTC (2 << 3)
2010-10-25 11:03:38 +02:00
/**
* @brief Some registers and variables require indentifying GPIO by
* a single number instead of the port and pin. This macro converts
* Port A pins into a single number.
*/
2011-03-21 13:11:52 +01:00
#define PORTA_PIN(y) (PORTA|y)
2010-10-25 11:03:38 +02:00
/**
* @brief Some registers and variables require indentifying GPIO by
* a single number instead of the port and pin. This macro converts
* Port B pins into a single number.
*/
2011-03-21 13:11:52 +01:00
#define PORTB_PIN(y) (PORTB|y)
/**
* @brief Some registers and variables require indentifying GPIO by
* a single number instead of the port and pin. This macro converts
* Port C pins into a single number.
*/
#define PORTC_PIN(y) (PORTC|y)
2010-10-25 11:03:38 +02:00
/**
* @brief Some registers and variables require indentifying GPIO by
* a single number instead of the port and pin. This macro converts
* Port C pins into a single number.
*/
2011-03-21 13:11:52 +01:00
#define PORTx_PIN(x, y) (x|y)
2010-10-25 11:03:38 +02:00
/**
* @brief Resets the watchdog timer. This function is pointed
2014-06-19 14:28:13 +02:00
* to by the macro ::halResetWatchdog().
* @warning Be very careful when using this as you can easily get into an
2010-10-25 11:03:38 +02:00
* infinite loop.
*/
void halInternalResetWatchDog( void );
/**
* @brief Configure an IO pin's operating mode
*
* @param io The io pin to use, can be specified with the convenience macros
* PORTA_PIN(), PORTB_PIN(), PORTC_PIN()
* @param config The configuration mode to use.
*
*/
void halGpioConfig(uint32_t io, uint32_t config);
2010-10-25 11:03:38 +02:00
2011-03-21 13:11:52 +01:00
/**
* @brief Set/Clear single GPIO bit
*
* @param io The io pin to use, can be specified with the convenience macros
* PORTA_PIN(), PORTB_PIN(), PORTC_PIN()
* @param value A flag indicating whether to set or clear the io.
*
*/
void halGpioSet(uint32_t io, boolean value);
2011-03-21 13:11:52 +01:00
2010-10-25 11:03:38 +02:00
/**
* @brief Calibrates the internal SlowRC to generate a 1024 Hz (1kHz) clock.
*/
void halInternalCalibrateSlowRc( void );
/**
* @brief Calibrates the internal FastRC to generate a 12Mhz clock.
*/
void halInternalCalibrateFastRc(void);
/**
* @brief Sets the trim values for the 1.8V and 1.2V regulators based upon
* manufacturing configuration.
*
* @param boostMode Alter the regulator trim based upon the state
* of boost mode. TRUE if boost mode is active, FALSE otherwise.
*/
void halInternalSetRegTrim(boolean boostMode);
/** @brief Takes a slow ADC measurement of VDD_PADS in millivolts. Due to
* the conversions performed, this function takes slightly under 3.2ms with a
* variation across successive conversions approximately +/-2mv of the average
* conversion.
*
* @return A slow measurement of VDD_PADS in millivolts.
*/
uint16_t stMeasureVddSlow(void);
2010-10-25 11:03:38 +02:00
/** @brief Takes a fast ADC measurement of VDD_PADS in millivolts.
* Due to the conversions performed, this function takes slightly under 150us
* with a variation across successive conversions approximately +/-20mv of
* the average conversion.
*
* @return A fast measurement of VDD_PADS in millivolts.
*/
uint16_t stMeasureVddFast(void);
2010-10-25 11:03:38 +02:00
/**
* @brief Calibrates the GPIO pads. This function is called from within
* the stack and HAL at appropriate times.
*/
void halCommonCalibratePads(void);
/**
* @brief This function is intended to be called periodically, from the
* stack and application, to check the XTAL bias trim is within
* appropriate levels and adjust if not. This function is *not* designed
* to be used before halInternalSwitchToXtal() has been called.
*/
void halCommonCheckXtalBiasTrim(void);
/**
* @brief Switches to running off of the 24MHz crystal, including changing
* the CPU to be 24MHz (FCLK sourced from SYSCLK). The switch function
* will respect the BIASTRIM HI and LO flags and adjust bias trim until
* appropriate crystal biasing is used. This function is called from
* within the stack and HAL at appropriate times.
*/
void halInternalSwitchToXtal(void);
/**
* @brief Search for optimal 24MHz crystal bias trim, assuming no valid
* prior value. This function is typically called during initialization
* of the microcontroller.
*/
void halInternalSearchForBiasTrim(void);
/** @brief Blocks the current thread of execution for the specified
* amount of time, in milliseconds.
*
* The function is implemented with cycle-counted busy loops
* and is intended to create the short delays required when interfacing with
* hardware peripherals. This function works by simply adding another
* layer on top of halCommonDelayMicroseconds().
*
2014-06-19 14:28:13 +02:00
* @param ms The specified time, in milliseconds.
2010-10-25 11:03:38 +02:00
*/
void halCommonDelayMilliseconds(uint16_t ms);
2010-10-25 11:03:38 +02:00
/** @brief Puts the microcontroller to sleep in a specified mode, allows
2014-06-19 14:28:13 +02:00
* the GPIO wake sources to be determined at runtime. This function
2010-10-25 11:03:38 +02:00
* requires the GPIO wake sources to be defined at compile time in the board
* file.
*
* @note This routine always enables interrupts.
*
* @param sleepMode A microcontroller sleep mode.
*
* @param gpioWakeBitMask A bit mask of the GPIO that are allowed to wake
* the chip from deep sleep. A high bit in the mask will enable waking
* the chip if the corresponding GPIO changes state. bit0 is PA0, bit1 is
* PA1, bit8 is PB0, bit16 is PCO, bit23 is PC7, bits[31:24] are ignored.
2014-06-19 14:28:13 +02:00
*
2010-10-25 11:03:38 +02:00
* @sa ::SleepModes
*/
void halSleepWithOptions(SleepModes sleepMode, uint32_t gpioWakeBitMask);
2010-10-25 11:03:38 +02:00
/**
* @brief Uses the system timer to enter ::SLEEPMODE_WAKETIMER for
* approximately the specified amount of time (provided in quarter seconds),
* the GPIO wake sources can be provided at runtime.
*
* This function returns ::ST_SUCCESS and the duration parameter is
* decremented to 0 after sleeping for the specified amount of time. If an
* interrupt occurs that brings the chip out of sleep, the function returns
* ::ST_SLEEP_INTERRUPTED and the duration parameter reports the amount of
* time remaining out of the original request.
*
* @note This routine always enables interrupts.
*
* @note The maximum sleep time of the hardware is limited on STM32W108 platforms
* to 48.5 days. Any sleep duration greater than this limit will wake up
* briefly (e.g. 16 microseconds) to reenable another sleep cycle.
*
* @param duration The amount of time, expressed in quarter seconds, that the
* micro should be placed into ::SLEEPMODE_WAKETIMER. When the function returns,
* this parameter provides the amount of time remaining out of the original
* sleep time request (normally the return value will be 0).
2014-06-19 14:28:13 +02:00
*
2010-10-25 11:03:38 +02:00
* @param gpioWakeBitMask A bit mask of the GPIO that are allowed to wake
* the chip from deep sleep. A high bit in the mask will enable waking
* the chip if the corresponding GPIO changes state. bit0 is PA0, bit1 is
* PA1, bit8 is PB0, bit16 is PCO, bit23 is PC7, bits[31:24] are ignored.
2014-06-19 14:28:13 +02:00
*
2010-10-25 11:03:38 +02:00
* @return An StStatus value indicating the success or
* failure of the command.
*/
StStatus halSleepForQsWithOptions(uint32_t *duration, uint32_t gpioWakeBitMask);
2010-10-25 11:03:38 +02:00
/**
* @brief Provides access to assembly code which triggers idle sleep.
*/
void halInternalIdleSleep(void);
/** @brief Puts the microcontroller to sleep in a specified mode. This
* internal function performs the actual sleep operation. This function
* assumes all of the wake source registers are configured properly.
*
* @note This routine always enables interrupts.
*
* @param sleepMode A microcontroller sleep mode
*/
void halInternalSleep(SleepModes sleepMode);
/**
* @brief Obtains the events that caused the last wake from sleep. The
* meaning of each bit is as follows:
* - [31] = WakeInfoValid
* - [30] = SleepSkipped
* - [29] = CSYSPWRUPREQ
* - [28] = CDBGPWRUPREQ
* - [27] = PWRUP_WAKECORE
* - [26] = PWRUP_SLEEPTMRWRAP
* - [25] = PWRUP_SLEEPTMRCOMPB
* - [24] = PWRUP_SLEEPTMRCOMPA
* - [23:0] = corresponding GPIO activity
2014-06-19 14:28:13 +02:00
*
2010-10-25 11:03:38 +02:00
* WakeInfoValid means that ::halSleepWithOptions (::halInternalSleep) has been called
* at least once. Since the power on state clears the wake event info,
* this bit says the sleep code has been called since power on.
*
* SleepSkipped means that the chip never left the running state. Sleep can
* be skipped if any wake event occurs between going ::ATOMIC and transferring
* control from the CPU to the power management state machine. Sleep can
* also be skipped if the debugger is connected (JTAG/SerialWire CSYSPWRUPREQ
* signal is set). The net affect of skipping sleep is the Low Voltage
* domain never goes through a power/reset cycle.
*
2014-06-19 14:28:13 +02:00
* @return The events that caused the last wake from sleep.
2010-10-25 11:03:38 +02:00
*/
uint32_t halGetWakeInfo(void);
2010-10-25 11:03:38 +02:00
/** @brief Seeds the ::halCommonGetRandom() pseudorandom number
* generator.
*
* It should be called by the application during initialization with a seed
* from the radio randon number generator.
*
* @param seed A seed for the pseudorandom number generator.
*/
void halCommonSeedRandom(uint32_t seed);
2010-10-25 11:03:38 +02:00
/** @brief Runs a standard LFSR to generate pseudorandom numbers.
*
* Called by the MAC in the stack to choose random backoff slots.
*
* Complicated implementations may improve the MAC's
* ability to avoid collisions in large networks, but it is \b critical to
* implement this function to return quickly.
*/
uint16_t halCommonGetRandom(void);
2010-10-25 11:03:38 +02:00
#endif //STM32W108XX_MICRO_COMMON_H_
2010-10-25 11:03:38 +02:00
/**@} // END micro group
*/