//***************************************************************************** // // am_hal_systick.c //! @file //! //! @brief Functions for interfacing with the SYSTICK //! //! @addtogroup systick2 System Timer (SYSTICK) //! @ingroup apollo2hal //! @{ // //***************************************************************************** //***************************************************************************** // // Copyright (c) 2017, 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. // // 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 1.2.9 of the AmbiqSuite Development Package. // //***************************************************************************** #include #include #include "am_mcu_apollo.h" //***************************************************************************** // // Macro definitions // //***************************************************************************** #define SYSTICK_MAX_TICKS ((1 << 24)-1) #define MAX_U32 (0xffffffff) //***************************************************************************** // //! @brief Start the SYSTICK. //! //! This function starts the systick timer. //! //! @note This timer does not run in deep-sleep mode as it runs from the core //! clock, which is gated in deep-sleep. If a timer is needed in deep-sleep use //! one of the ctimers instead. Also to note is this timer will consume higher //! power than the ctimers. //! //! @return None. // //***************************************************************************** void am_hal_systick_start(void) { // // Start the systick timer. // AM_REG(SYSTICK, SYSTCSR) |= AM_REG_SYSTICK_SYSTCSR_ENABLE_M; } //***************************************************************************** // //! @brief Stop the SYSTICK. //! //! This function stops the systick timer. //! //! @note This timer does not run in deep-sleep mode as it runs from the core //! clock, which is gated in deep-sleep. If a timer is needed in deep-sleep use //! one of the ctimers instead. Also to note is this timer will consume higher //! power than the ctimers. //! //! @return None. // //***************************************************************************** void am_hal_systick_stop(void) { // // Stop the systick timer. // AM_REG(SYSTICK, SYSTCSR) &= ~AM_REG_SYSTICK_SYSTCSR_ENABLE_M; } //***************************************************************************** // //! @brief Enable the interrupt in the SYSTICK. //! //! This function enables the interupt in the systick timer. //! //! @return None. // //***************************************************************************** void am_hal_systick_int_enable(void) { // // Enable the systick timer interrupt. // AM_REG(SYSTICK, SYSTCSR) |= AM_REG_SYSTICK_SYSTCSR_TICKINT_M; } //***************************************************************************** // //! @brief Disable the interrupt in the SYSTICK. //! //! This function disables the interupt in the systick timer. //! //! @return None. // //***************************************************************************** void am_hal_systick_int_disable(void) { // // Disable the systick timer interrupt. // AM_REG(SYSTICK, SYSTCSR) &= ~AM_REG_SYSTICK_SYSTCSR_TICKINT_M; } //***************************************************************************** // //! @brief Reads the interrupt status. //! //! This function reads the interrupt status in the systick timer. //! //! @return the interrupt status. // //***************************************************************************** uint32_t am_hal_systick_int_status_get(void) { // // Return the systick timer interrupt status. // return AM_REG(SYSTICK, SYSTCSR) & AM_REG_SYSTICK_SYSTCSR_COUNTFLAG_M; } //***************************************************************************** // //! @brief Reset the interrupt in the SYSTICK. //! //! This function resets the systick timer by clearing out the configuration //! register. //! //! @return None. // //***************************************************************************** void am_hal_systick_reset(void) { // // Reset the systick timer interrupt. // AM_REG(SYSTICK, SYSTCSR) = 0x0; } //***************************************************************************** // //! @brief Load the value into the SYSTICK. //! //! @param ui32LoadVal the desired load value for the systick. Maximum value is //! 0x00FF.FFFF. //! //! This function loads the desired value into the systick timer. //! //! @return None. // //***************************************************************************** void am_hal_systick_load(uint32_t ui32LoadVal) { // // Write the reload register. // AM_REG(SYSTICK, SYSTRVR) = ui32LoadVal; } //***************************************************************************** // //! @brief Get the current count value in the SYSTICK. //! //! This function gets the current count value in the systick timer. //! //! @return Current count value. // //***************************************************************************** uint32_t am_hal_systick_count(void) { // // Return the current systick timer count value. // return AM_REG(SYSTICK, SYSTCVR); } //***************************************************************************** // //! @brief Wait the specified number of ticks. //! //! This function delays for the given number of SysTick ticks. //! //! @note If the SysTick timer is being used elsewhere, it will be corrupted //! by calling this function. //! //! @return 0 if successful. // //***************************************************************************** uint32_t am_hal_systick_wait_ticks(uint32_t u32Ticks) { if ( u32Ticks == 0 ) { u32Ticks++; // Make sure we get the COUNTFLAG } // // The proper SysTick initialization sequence is: (p 4-36 of the M4 UG). // 1. Program reload value // 2. Clear current value // 3. Program CSR // // Set the reload value to the required number of ticks. // AM_REG(SYSTICK, SYSTRVR) = u32Ticks; // // Clear the current count. // AM_REG(SYSTICK, SYSTCVR) = 0x0; // // Set to use the processor clock, but don't cause an exception (we'll poll). // AM_REG(SYSTICK, SYSTCSR) = AM_REG_SYSTICK_SYSTCSR_ENABLE_M; // // Poll till done // while ( !(AM_REG(SYSTICK, SYSTCSR) & AM_REG_SYSTICK_SYSTCSR_COUNTFLAG_M) ); // // And disable systick before exiting. // AM_REG(SYSTICK, SYSTCSR) = 0; return 0; } //***************************************************************************** // //! @brief Delay the specified number of microseconds. //! //! This function will use the SysTick timer to delay until the specified //! number of microseconds have elapsed. It uses the processor clocks and //! takes into account the current CORESEL setting. //! //! @note If the SysTick timer is being used elsewhere, it will be corrupted //! by calling this function. //! //! @return Total number of SysTick ticks delayed. // //***************************************************************************** uint32_t am_hal_systick_delay_us(uint32_t u32NumUs) { uint32_t u32ClkFreq, u32nLoops, u32Ticks, uRet; uint32_t u32CoreSel = AM_BFR(CLKGEN, CCTRL, CORESEL); u32nLoops = 1; switch (u32CoreSel) { // // We need to compute the required number of ticks. To do so and to // minimize divide operations, we'll use the following equation: // u32Ticks = (u32NumUs * HFCR_EXACT)/1000000 // = (u32NumUs * (HFCR_EXACT * 1024)/1000000) / 1024 // The values for the variable u32ClkFreq are computed as follows: // u32ClkFreq = (24390200 * 1024) / ((clksel+1)*1000000); // (and we'll do the remaining divide by 1024, using a shift, later). // case 0: u32ClkFreq = 24975; if ( u32NumUs > ((SYSTICK_MAX_TICKS / 24975)*1024) ) { u32nLoops = (u32NumUs / ((SYSTICK_MAX_TICKS / 24975)*1024)) + 1; u32NumUs /= u32nLoops; } if ( u32NumUs > (MAX_U32 / 24975) ) { u32Ticks = (u32NumUs >> 10) * u32ClkFreq; } else { u32Ticks = (u32NumUs * u32ClkFreq) >> 10; } break; case 1: u32ClkFreq = 12487; if ( u32NumUs > ((SYSTICK_MAX_TICKS / 12487)*1024) ) { u32nLoops = (u32NumUs / ((SYSTICK_MAX_TICKS / 12487)*1024)) + 1; u32NumUs /= u32nLoops; } if ( u32NumUs > (MAX_U32 / 12487) ) { u32Ticks = (u32NumUs >> 10) * u32ClkFreq; } else { u32Ticks = (u32NumUs * u32ClkFreq) >> 10; } break; case 2: u32ClkFreq = 8325; if ( u32NumUs > ((SYSTICK_MAX_TICKS / 8325)*1024) ) { u32nLoops = (u32NumUs / ((SYSTICK_MAX_TICKS / 8325)*1024)) + 1; u32NumUs /= u32nLoops; } if ( u32NumUs > (MAX_U32 / 8325) ) { u32Ticks = (u32NumUs >> 10) * u32ClkFreq; } else { u32Ticks = (u32NumUs * u32ClkFreq) >> 10; } break; case 3: u32ClkFreq = 6243; if ( u32NumUs > ((SYSTICK_MAX_TICKS / 6243)*1024) ) { u32nLoops = (u32NumUs / ((SYSTICK_MAX_TICKS / 6243)*1024)) + 1; u32NumUs /= u32nLoops; } if ( u32NumUs > (MAX_U32 / 6243) ) { u32Ticks = (u32NumUs >> 10) * u32ClkFreq; } else { u32Ticks = (u32NumUs * u32ClkFreq) >> 10; } break; case 4: u32ClkFreq = 4995; if ( u32NumUs > ((SYSTICK_MAX_TICKS / 4995)*1024) ) { u32nLoops = (u32NumUs / ((SYSTICK_MAX_TICKS / 4995)*1024)) + 1; u32NumUs /= u32nLoops; } if ( u32NumUs > (MAX_U32 / 4995) ) { u32Ticks = (u32NumUs >> 10) * u32ClkFreq; } else { u32Ticks = (u32NumUs * u32ClkFreq) >> 10; } break; case 5: u32ClkFreq = 4162; if ( u32NumUs > ((SYSTICK_MAX_TICKS / 4162)*1024) ) { u32nLoops = (u32NumUs / ((SYSTICK_MAX_TICKS / 4162)*1024)) + 1; u32NumUs /= u32nLoops; } if ( u32NumUs > (MAX_U32 / 4162) ) { u32Ticks = (u32NumUs >> 10) * u32ClkFreq; } else { u32Ticks = (u32NumUs * u32ClkFreq) >> 10; } break; case 6: u32ClkFreq = 3567; if ( u32NumUs > ((SYSTICK_MAX_TICKS / 3567)*1024) ) { u32nLoops = (u32NumUs / ((SYSTICK_MAX_TICKS / 3567)*1024)) + 1; u32NumUs /= u32nLoops; } if ( u32NumUs > (MAX_U32 / 3567) ) { u32Ticks = (u32NumUs >> 10) * u32ClkFreq; } else { u32Ticks = (u32NumUs * u32ClkFreq) >> 10; } break; case 7: u32ClkFreq = 3121; if ( u32NumUs > ((SYSTICK_MAX_TICKS / 3121)*1024) ) { u32nLoops = (u32NumUs / ((SYSTICK_MAX_TICKS / 3121)*1024)) + 1; u32NumUs /= u32nLoops; } if ( u32NumUs > (MAX_U32 / 3121) ) { u32Ticks = (u32NumUs >> 10) * u32ClkFreq; } else { u32Ticks = (u32NumUs * u32ClkFreq) >> 10; } break; default: u32Ticks = 1; break; } // switch() uRet = u32Ticks * u32nLoops; while ( u32nLoops-- ) { am_hal_systick_wait_ticks(u32Ticks); } return uRet; } //***************************************************************************** // // End Doxygen group. //! @} // //*****************************************************************************