//***************************************************************************** // // am_hal_sysctrl.c //! @file //! //! @brief Functions for interfacing with the M4F system control registers //! //! @addtogroup sysctrl3 System Control (SYSCTRL) //! @ingroup apollo3hal //! @{ // //***************************************************************************** //***************************************************************************** // // Copyright (c) 2020, Ambiq Micro // 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 copyright holder nor the names of its // contributors may be used to endorse or promote products derived from this // software without specific prior written permission. // // Third party software included in this distribution is subject to the // additional license terms as defined in the /docs/licenses directory. // // 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. // // This is part of revision 2.4.2 of the AmbiqSuite Development Package. // //***************************************************************************** #include #include #include "am_mcu_apollo.h" //***************************************************************************** // // Globals // //***************************************************************************** // // g_ui32BusWriteFlush is used by the macro, am_hal_sysctrl_bus_write_flush(). // It is made global here to avoid compiler 'set but not used' warnings. // static volatile uint32_t g_ui32BusWriteFlush; //***************************************************************************** // //! @brief Place the core into sleep or deepsleep. //! //! @param bSleepDeep - False for Normal or True Deep sleep. //! //! This function puts the MCU to sleep or deepsleep depending on bSleepDeep. //! //! Valid values for bSleepDeep are: //! //! AM_HAL_SYSCTRL_SLEEP_NORMAL //! AM_HAL_SYSCTRL_SLEEP_DEEP //! //! @return None. // //***************************************************************************** void am_hal_sysctrl_sleep(bool bSleepDeep) { // // Disable interrupts and save the previous interrupt state. // AM_CRITICAL_BEGIN // // If the user selected DEEPSLEEP and the TPIU is off, attempt to enter // DEEP SLEEP. // if ( (bSleepDeep == AM_HAL_SYSCTRL_SLEEP_DEEP) && (MCUCTRL->TPIUCTRL_b.ENABLE == MCUCTRL_TPIUCTRL_ENABLE_DIS) ) { // // Retrieve the reset generator status bits // This gets reset on Deep Sleep, so we take a snapshot here // if (!gAmHalResetStatus) { gAmHalResetStatus = RSTGEN->STAT; } // // Prepare the core for deepsleep (write 1 to the DEEPSLEEP bit). // SCB->SCR |= _VAL2FLD(SCB_SCR_SLEEPDEEP, 1); } else { // // Prepare the core for normal sleep (write 0 to the DEEPSLEEP bit). // SCB->SCR &= ~_VAL2FLD(SCB_SCR_SLEEPDEEP, 1); } // // Before executing WFI, flush any buffered core and peripheral writes. // __DSB(); am_hal_sysctrl_bus_write_flush(); // // Execute the sleep instruction. // __WFI(); // // Upon wake, execute the Instruction Sync Barrier instruction. // __ISB(); // // Restore the interrupt state. // AM_CRITICAL_END } //***************************************************************************** // //! @brief Enable the floating point module. //! //! Call this function to enable the ARM hardware floating point module. //! //! @return None. // //***************************************************************************** void am_hal_sysctrl_fpu_enable(void) { // // Enable access to the FPU in both privileged and user modes. // NOTE: Write 0s to all reserved fields in this register. // SCB->CPACR = _VAL2FLD(SCB_CPACR_CP11, 0x3) | _VAL2FLD(SCB_CPACR_CP10, 0x3); } //***************************************************************************** // //! @brief Disable the floating point module. //! //! Call this function to disable the ARM hardware floating point module. //! //! @return None. // //***************************************************************************** void am_hal_sysctrl_fpu_disable(void) { // // Disable access to the FPU in both privileged and user modes. // NOTE: Write 0s to all reserved fields in this register. // SCB->CPACR = 0x00000000 & ~(_VAL2FLD(SCB_CPACR_CP11, 0x3) | _VAL2FLD(SCB_CPACR_CP10, 0x3)); } //***************************************************************************** // //! @brief Enable stacking of FPU registers on exception entry. //! //! @param bLazy - Set to "true" to enable "lazy stacking". //! //! This function allows the core to save floating-point information to the //! stack on exception entry. Setting the bLazy option enables "lazy stacking" //! for interrupt handlers. Normally, mixing floating-point code and interrupt //! driven routines causes increased interrupt latency, because the core must //! save extra information to the stack upon exception entry. With the lazy //! stacking option enabled, the core will skip the saving of floating-point //! registers when possible, reducing average interrupt latency. //! //! @note At reset of the Cortex M4, the ASPEN and LSPEN bits are set to 1, //! enabling Lazy mode by default. Therefore this function will generally //! only have an affect when setting for full-context save (or when switching //! from full-context to lazy mode). //! //! @note See also: //! infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.dai0298a/DAFGGBJD.html //! //! @note Three valid FPU context saving modes are possible. //! 1. Lazy ASPEN=1 LSPEN=1 am_hal_sysctrl_fpu_stacking_enable(true) //! and default. //! 2. Full-context ASPEN=1 LSPEN=0 am_hal_sysctrl_fpu_stacking_enable(false) //! 3. No FPU state ASPEN=0 LSPEN=0 am_hal_sysctrl_fpu_stacking_disable() //! 4. Invalid ASPEN=0 LSPEN=1 //! //! @return None. // //***************************************************************************** void am_hal_sysctrl_fpu_stacking_enable(bool bLazy) { uint32_t ui32fpccr; // // Set the requested FPU stacking mode in ISRs. // AM_CRITICAL_BEGIN #define SYSCTRL_FPCCR_LAZY (FPU_FPCCR_ASPEN_Msk | FPU_FPCCR_LSPEN_Msk) ui32fpccr = FPU->FPCCR; ui32fpccr &= ~SYSCTRL_FPCCR_LAZY; ui32fpccr |= (bLazy ? SYSCTRL_FPCCR_LAZY : FPU_FPCCR_ASPEN_Msk); FPU->FPCCR = ui32fpccr; AM_CRITICAL_END } //***************************************************************************** // //! @brief Disable FPU register stacking on exception entry. //! //! This function disables all stacking of floating point registers for //! interrupt handlers. This mode should only be used when it is absolutely //! known that no FPU instructions will be executed in an ISR. //! //! @return None. // //***************************************************************************** void am_hal_sysctrl_fpu_stacking_disable(void) { // // Completely disable FPU context save on entry to ISRs. // AM_CRITICAL_BEGIN FPU->FPCCR &= ~SYSCTRL_FPCCR_LAZY; AM_CRITICAL_END } //***************************************************************************** // //! @brief Issue a system wide reset using the AIRCR bit in the M4 system ctrl. //! //! This function issues a system wide reset (Apollo POR level reset). //! //! @return None. // //***************************************************************************** void am_hal_sysctrl_aircr_reset(void) { // // Set the system reset bit in the AIRCR register // __NVIC_SystemReset(); } //***************************************************************************** // // End Doxygen group. //! @} // //*****************************************************************************