/****************************************************************************** * Filename: sys_ctrl.h * Revised: 2015-11-09 11:32:42 +0100 (Mon, 09 Nov 2015) * Revision: 45004 * * Description: Defines and prototypes for the System Controller. * * Copyright (c) 2015, Texas Instruments Incorporated * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1) Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2) Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * 3) Neither the name of the ORGANIZATION nor the names of its contributors may * be used to endorse or promote products derived from this software without * specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * ******************************************************************************/ //***************************************************************************** // //! \addtogroup system_control_group //! @{ //! \addtogroup sysctrl_api //! @{ // //***************************************************************************** #ifndef __SYSCTRL_H__ #define __SYSCTRL_H__ //***************************************************************************** // // If building with a C++ compiler, make all of the definitions in this header // have a C binding. // //***************************************************************************** #ifdef __cplusplus extern "C" { #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include //***************************************************************************** // // Support for DriverLib in ROM: // This section renames all functions that are not "static inline", so that // calling these functions will default to implementation in flash. At the end // of this file a second renaming will change the defaults to implementation in // ROM for available functions. // // To force use of the implementation in flash, e.g. for debugging: // - Globally: Define DRIVERLIB_NOROM at project level // - Per function: Use prefix "NOROM_" when calling the function // //***************************************************************************** #if !defined(DOXYGEN) #define SysCtrlPowerEverything NOROM_SysCtrlPowerEverything #define SysCtrlStandby NOROM_SysCtrlStandby #define SysCtrlPowerdown NOROM_SysCtrlPowerdown #define SysCtrlShutdown NOROM_SysCtrlShutdown #define SysCtrlResetSourceGet NOROM_SysCtrlResetSourceGet #endif //***************************************************************************** // // Defines for the settings of the main XOSC // //***************************************************************************** #define SYSCTRL_SYSBUS_ON 0x00000001 #define SYSCTRL_SYSBUS_OFF 0x00000000 //***************************************************************************** // // Defines for the different power modes of the System CPU // //***************************************************************************** #define CPU_RUN 0x00000000 #define CPU_SLEEP 0x00000001 #define CPU_DEEP_SLEEP 0x00000002 //***************************************************************************** // // Defines for SysCtrlSetRechargeBeforePowerDown // //***************************************************************************** #define XOSC_IN_HIGH_POWER_MODE 0 // When xosc_hf is in HIGH_POWER_XOSC #define XOSC_IN_LOW_POWER_MODE 1 // When xosc_hf is in LOW_POWER_XOSC //***************************************************************************** // // API Functions and prototypes // //***************************************************************************** //***************************************************************************** // //! \brief Power up everything. //! //! \note The sequencing in this function is not necessarily how you would //! want to sequence active mode in a real application. There might be //! application specific prerequisites or hardware restrictions you would want //! to consider which deviate from this specific implementation. //! //! \note This function might be deprecated in future releases //! //! \return None // //***************************************************************************** extern void SysCtrlPowerEverything(void); //***************************************************************************** // //! \brief Force the system into standby mode. //! //! \note The sequencing in this function is not necessarily how you would //! want to sequence the standby in a real application. There might be //! application specific prerequisites you would want to do before entering //! standby which deviate from this specific implementation. //! //! \return None // //***************************************************************************** extern void SysCtrlStandby(void); //***************************************************************************** // //! \brief Force the system into power down. //! //! \note The sequencing in this function is not necessarily how you would //! want to sequence the powerdown in a real application. There might be //! application specific prerequisites you would want to do before entering //! powerdown which deviate from this specific implementation. //! //! \return None // //***************************************************************************** extern void SysCtrlPowerdown(void); //***************************************************************************** // //! \brief Force the system into shutdown. //! //! \note It is solely the programmer's responsibility to properly configure an //! interrupt that will enable the device to wakeup from the shutdown mode, //! before calling this function. In shutdown the only possible wakeup action //! is an IO interrupt. //! //! \note The sequencing in this function is not necessarily how you would //! want to sequence the shutdown in a real application. There might be //! application specific prerequisites you would want to do before entering //! shutdown which deviate from this specific implementation. //! //! \return This function does \b not return. // //***************************************************************************** extern void SysCtrlShutdown(void); //***************************************************************************** // //! \brief Get the CPU core clock frequency. //! //! Use this function to get the current clock frequency for the CPU. //! //! The CPU can run from 48 MHz and down to 750kHz. The frequency is defined //! by the combined division factor of the SYSBUS and the CPU clock divider. //! //! \return Returns the current CPU core clock frequency. // //***************************************************************************** __STATIC_INLINE uint32_t SysCtrlClockGet( void ) { // // Return fixed clock speed // return( GET_MCU_CLOCK ); } //***************************************************************************** // //! \brief Sync all accesses to the AON register interface. //! //! When this function returns, all writes to the AON register interface are //! guaranteed to have propagated to hardware. The function will return //! immediately if no AON writes are pending; otherwise, it will wait for the next //! AON clock before returning. //! //! \return None //! //! \sa \ref SysCtrlAonUpdate() // //***************************************************************************** __STATIC_INLINE void SysCtrlAonSync(void) { // // Sync the AON interface // HWREG(AON_RTC_BASE + AON_RTC_O_SYNC); } //***************************************************************************** // //! \brief Update all interfaces to AON. //! //! When this function returns, at least 1 clock cycle has progressed on the //! AON domain, so that any outstanding updates to and from the AON interface //! is guaranteed to be in sync. //! //! \note This function should primarily be used after wakeup from sleep modes, //! as it will guarantee that all shadow registers on the AON interface are updated //! before reading any AON registers from the MCU domain. If a write has been //! done to the AON interface it is sufficient to call the \ref SysCtrlAonSync(). //! //! \return None //! //! \sa \ref SysCtrlAonSync() // //***************************************************************************** __STATIC_INLINE void SysCtrlAonUpdate(void) { // // Force a clock cycle on the AON interface to guarantee all registers are // in sync. // HWREG(AON_RTC_BASE + AON_RTC_O_SYNC) = 1; HWREG(AON_RTC_BASE + AON_RTC_O_SYNC); } //***************************************************************************** // //! \brief Set Recharge values before entering Power Down. //! //! This function shall be called just before entering Power Down. //! It calculates an optimal and safe recharge setting of the adaptive recharge //! controller. The results of previous setting are also taken into account. //! //! \note In order to make sure that the register writes are completed, \ref SysCtrlAonSync() //! must be called before entering standby/power down. This is not done internally //! in this function due to two reasons: //! - 1) There might be other register writes that must be synchronized as well. //! - 2) It is possible to save some time by doing other things before calling //! \ref SysCtrlAonSync() since this call will not return before there are no //! outstanding write requests between MCU and AON. //! //! \param xoscPowerMode (typically running in XOSC_IN_HIGH_POWER_MODE all the time). //! - \ref XOSC_IN_HIGH_POWER_MODE : When xosc_hf is in HIGH_POWER_XOSC. //! - \ref XOSC_IN_LOW_POWER_MODE : When xosc_hf is in LOW_POWER_XOSC. //! //! \return None // //***************************************************************************** void SysCtrlSetRechargeBeforePowerDown( uint32_t xoscPowerMode ); //***************************************************************************** // //! \brief Adjust Recharge calculations to be used next. //! //! This function shall be called just after returning from Power Down. //! //! Reads the results from the adaptive recharge controller and current chip //! temperature. This is used as additional information when calculating //! optimal recharge controller settings next time (When //! \ref SysCtrlSetRechargeBeforePowerDown() is called next time). //! //! \note //! Special care must be taken to make sure that the AON registers read are //! updated after the wakeup. Writing to an AON register and then calling //! \ref SysCtrlAonSync() will handle this. Typically this must be done anyway, //! for example by calling \ref AONWUCAuxWakeupEvent() and then later on calling //! \ref SysCtrlAonSync() just before calling \ref SysCtrlSetRechargeBeforePowerDown(). //! //! \return None // //***************************************************************************** void SysCtrlAdjustRechargeAfterPowerDown( void ); //***************************************************************************** // //! \brief Turns DCDC on or off depending of what is considered to be optimal usage. //! //! This function controls the DCDC only if both the following CCFG settings are \c true: //! - DCDC is configured to be used. //! - Alternative DCDC settings are defined and enabled. //! //! The DCDC is configured in accordance to the CCFG settings when turned on. //! //! This function should be called periodically. //! //! \return None // //***************************************************************************** void SysCtrl_DCDC_VoltageConditionalControl( void ); //***************************************************************************** // \name Return values from calling SysCtrlResetSourceGet() //@{ //***************************************************************************** #define RSTSRC_PWR_ON (( AON_SYSCTL_RESETCTL_RESET_SRC_PWR_ON ) >> ( AON_SYSCTL_RESETCTL_RESET_SRC_S )) #define RSTSRC_PIN_RESET (( AON_SYSCTL_RESETCTL_RESET_SRC_PIN_RESET ) >> ( AON_SYSCTL_RESETCTL_RESET_SRC_S )) #define RSTSRC_VDDS_LOSS (( AON_SYSCTL_RESETCTL_RESET_SRC_VDDS_LOSS ) >> ( AON_SYSCTL_RESETCTL_RESET_SRC_S )) #define RSTSRC_VDD_LOSS (( AON_SYSCTL_RESETCTL_RESET_SRC_VDD_LOSS ) >> ( AON_SYSCTL_RESETCTL_RESET_SRC_S )) #define RSTSRC_VDDR_LOSS (( AON_SYSCTL_RESETCTL_RESET_SRC_VDDR_LOSS ) >> ( AON_SYSCTL_RESETCTL_RESET_SRC_S )) #define RSTSRC_CLK_LOSS (( AON_SYSCTL_RESETCTL_RESET_SRC_CLK_LOSS ) >> ( AON_SYSCTL_RESETCTL_RESET_SRC_S )) #define RSTSRC_SYSRESET (( AON_SYSCTL_RESETCTL_RESET_SRC_SYSRESET ) >> ( AON_SYSCTL_RESETCTL_RESET_SRC_S )) #define RSTSRC_WARMRESET (( AON_SYSCTL_RESETCTL_RESET_SRC_WARMRESET ) >> ( AON_SYSCTL_RESETCTL_RESET_SRC_S )) #define RSTSRC_WAKEUP_FROM_SHUTDOWN ((( AON_SYSCTL_RESETCTL_RESET_SRC_M ) >> ( AON_SYSCTL_RESETCTL_RESET_SRC_S )) + 1 ) //@} //***************************************************************************** // //! \brief Returns last reset source (including "wakeup from shutdown"). //! //! \return Returns one of the RSTSRC_ defines. // //***************************************************************************** extern uint32_t SysCtrlResetSourceGet( void ); //***************************************************************************** // //! \brief Perform a full system reset. //! //! \return The chip will reset and hence never return from this call. // //***************************************************************************** __STATIC_INLINE void SysCtrlSystemReset( void ) { // Disable CPU interrupts CPUcpsid(); // Write reset register HWREGBITW( AON_SYSCTL_BASE + AON_SYSCTL_O_RESETCTL, AON_SYSCTL_RESETCTL_SYSRESET_BITN ) = 1; // Finally, wait until the above write propagates while ( 1 ) { // Do nothing, just wait for the reset (and never return from here) } } //***************************************************************************** // //! \brief Enables reset if OSC clock loss event is asserted. //! //! Clock loss circuit in analog domain must be enabled as well in order to //! actually enable for a clock loss reset to occur //! \ref OSCClockLossEventEnable(). //! //! \note This function shall typically not be called because the clock loss //! reset functionality is controlled by the boot code (a factory configuration //! defines whether it is set or not). //! //! \return None //! //! \sa \ref SysCtrlClockLossResetDisable(), \ref OSCClockLossEventEnable() // //***************************************************************************** __STATIC_INLINE void SysCtrlClockLossResetEnable(void) { // // Set clock loss enable bit in AON_SYSCTRL using bit banding // HWREGBITW(AON_SYSCTL_BASE + AON_SYSCTL_O_RESETCTL, AON_SYSCTL_RESETCTL_CLK_LOSS_EN_BITN) = 1; } //***************************************************************************** // //! \brief Disables reset due to OSC clock loss event. //! //! \note This function shall typically not be called because the clock loss //! reset functionality is controlled by the boot code (a factory configuration //! defines whether it is set or not). //! //! \return None //! //! \sa \ref SysCtrlClockLossResetEnable() // //***************************************************************************** __STATIC_INLINE void SysCtrlClockLossResetDisable(void) { // // Clear clock loss enable bit in AON_SYSCTRL using bit banding // HWREGBITW(AON_SYSCTL_BASE + AON_SYSCTL_O_RESETCTL, AON_SYSCTL_RESETCTL_CLK_LOSS_EN_BITN) = 0; } //***************************************************************************** // // Support for DriverLib in ROM: // Redirect to implementation in ROM when available. // //***************************************************************************** #if !defined(DRIVERLIB_NOROM) && !defined(DOXYGEN) #include #ifdef ROM_SysCtrlPowerEverything #undef SysCtrlPowerEverything #define SysCtrlPowerEverything ROM_SysCtrlPowerEverything #endif #ifdef ROM_SysCtrlStandby #undef SysCtrlStandby #define SysCtrlStandby ROM_SysCtrlStandby #endif #ifdef ROM_SysCtrlPowerdown #undef SysCtrlPowerdown #define SysCtrlPowerdown ROM_SysCtrlPowerdown #endif #ifdef ROM_SysCtrlShutdown #undef SysCtrlShutdown #define SysCtrlShutdown ROM_SysCtrlShutdown #endif #ifdef ROM_SysCtrlResetSourceGet #undef SysCtrlResetSourceGet #define SysCtrlResetSourceGet ROM_SysCtrlResetSourceGet #endif #endif //***************************************************************************** // // Mark the end of the C bindings section for C++ compilers. // //***************************************************************************** #ifdef __cplusplus } #endif #endif // __SYSCTRL_H__ //***************************************************************************** // //! Close the Doxygen group. //! @} //! @} // //*****************************************************************************