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targets/TARGET_Freescale/TARGET_KLXX/us_ticker.c
- Committer:
- AnnaBridge
- Date:
- 2018-02-16
- Revision:
- 182:57724642e740
- Parent:
- 175:b96e65c34a4d
File content as of revision 182:57724642e740:
/* mbed Microcontroller Library * Copyright (c) 2006-2013 ARM Limited * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include <stddef.h> #include "us_ticker_api.h" #include "PeripheralNames.h" #include "clk_freqs.h" static void pit_init(void); static void lptmr_init(void); static int us_ticker_inited = 0; void us_ticker_init(void) { if (us_ticker_inited) return; us_ticker_inited = 1; pit_init(); lptmr_init(); } /****************************************************************************** * Timer for us timing. ******************************************************************************/ static void pit_init(void) { SIM->SCGC6 |= SIM_SCGC6_PIT_MASK; // Clock PIT PIT->MCR = 0; // Enable PIT // Channel 1 PIT->CHANNEL[1].LDVAL = 0xFFFFFFFF; PIT->CHANNEL[1].TCTRL = PIT_TCTRL_CHN_MASK; // Chain to timer 0, disable Interrupts PIT->CHANNEL[1].TCTRL |= PIT_TCTRL_TEN_MASK; // Start timer 1 // Use channel 0 as a prescaler for channel 1 PIT->CHANNEL[0].LDVAL = (bus_frequency() + 500000) / 1000000 - 1; PIT->CHANNEL[0].TCTRL = PIT_TCTRL_TEN_MASK; // Start timer 0, disable interrupts } uint32_t us_ticker_read() { if (!us_ticker_inited) us_ticker_init(); // The PIT is a countdown timer return ~(PIT->CHANNEL[1].CVAL); } /****************************************************************************** * Timer Event * * It schedules interrupts at given (32bit)us interval of time. * It is implemented used the 16bit Low Power Timer that remains powered in all * power modes. ******************************************************************************/ static void lptmr_isr(void); static void lptmr_init(void) { uint32_t extosc; /* Clock the timer */ SIM->SCGC5 |= SIM_SCGC5_LPTMR_MASK; /* Reset */ LPTMR0->CSR = 0; #if defined(TARGET_KL43Z) /* Set interrupt handler */ NVIC_SetVector(LPTMR0_IRQn, (uint32_t)lptmr_isr); NVIC_EnableIRQ(LPTMR0_IRQn); MCG->C1 |= MCG_C1_IRCLKEN_MASK; extosc = mcgirc_frequency(); #else /* Set interrupt handler */ NVIC_SetVector(LPTimer_IRQn, (uint32_t)lptmr_isr); NVIC_EnableIRQ(LPTimer_IRQn); /* Clock at (1)MHz -> (1)tick/us */ /* Check if the external oscillator can be divided to 1MHz */ extosc = extosc_frequency(); #endif if (extosc != 0) { //If external oscillator found if (extosc % 1000000u == 0) { //If it is a multiple if 1MHz extosc /= 1000000; if (extosc == 1) { //1MHz, set timerprescaler in bypass mode LPTMR0->PSR = LPTMR_PSR_PCS(3) | LPTMR_PSR_PBYP_MASK; return; } else { //See if we can divide it to 1MHz uint32_t divider = 0; extosc >>= 1; while (1) { if (extosc == 1) { LPTMR0->PSR = LPTMR_PSR_PCS(3) | LPTMR_PSR_PRESCALE(divider); return; } if (extosc % 2 != 0) //If we can't divide by two anymore break; divider++; extosc >>= 1; } } } } #if defined(TARGET_KL43Z) //No suitable actual IRC oscillator clock -> Set it to (8MHz / divider) MCG->SC &= ~MCG_SC_FCRDIV_MASK; MCG->MC &= ~MCG->MC & MCG_MC_LIRC_DIV2_MASK; LPTMR0->PSR = LPTMR_PSR_PCS(0) | LPTMR_PSR_PRESCALE(2); #else //No suitable external oscillator clock -> Use fast internal oscillator (4MHz / divider) MCG->C1 |= MCG_C1_IRCLKEN_MASK; MCG->C2 |= MCG_C2_IRCS_MASK; LPTMR0->PSR = LPTMR_PSR_PCS(0); switch (MCG->SC & MCG_SC_FCRDIV_MASK) { case MCG_SC_FCRDIV(0): //4MHz LPTMR0->PSR |= LPTMR_PSR_PRESCALE(1); break; case MCG_SC_FCRDIV(1): //2MHz LPTMR0->PSR |= LPTMR_PSR_PRESCALE(0); break; default: //1MHz or anything else, in which case we put it on 1MHz MCG->SC &= ~MCG_SC_FCRDIV_MASK; MCG->SC |= MCG_SC_FCRDIV(2); LPTMR0->PSR |= LPTMR_PSR_PBYP_MASK; } #endif } void us_ticker_disable_interrupt(void) { LPTMR0->CSR &= ~LPTMR_CSR_TIE_MASK; } void us_ticker_clear_interrupt(void) { // we already clear interrupt in lptmr_isr } static uint32_t us_ticker_int_counter = 0; static uint16_t us_ticker_int_remainder = 0; static void lptmr_set(unsigned short count) { /* Reset */ LPTMR0->CSR = 0; /* Set the compare register */ LPTMR0->CMR = count; /* Enable interrupt */ LPTMR0->CSR |= LPTMR_CSR_TIE_MASK; /* Start the timer */ LPTMR0->CSR |= LPTMR_CSR_TEN_MASK; } static void lptmr_isr(void) { // write 1 to TCF to clear the LPT timer compare flag LPTMR0->CSR |= LPTMR_CSR_TCF_MASK; if (us_ticker_int_counter > 0) { lptmr_set(0xFFFF); us_ticker_int_counter--; } else { if (us_ticker_int_remainder > 0) { lptmr_set(us_ticker_int_remainder); us_ticker_int_remainder = 0; } else { // This function is going to disable the interrupts if there are // no other events in the queue us_ticker_irq_handler(); } } } void us_ticker_set_interrupt(timestamp_t timestamp) { uint32_t delta = timestamp - us_ticker_read(); us_ticker_int_counter = (uint32_t)(delta >> 16); us_ticker_int_remainder = (uint16_t)(0xFFFF & delta); if (us_ticker_int_counter > 0) { lptmr_set(0xFFFF); us_ticker_int_counter--; } else { lptmr_set(us_ticker_int_remainder); us_ticker_int_remainder = 0; } } void us_ticker_fire_interrupt(void) { #if defined(TARGET_KL43Z) NVIC_SetPendingIRQ(LPTMR0_IRQn); #else NVIC_SetPendingIRQ(LPTimer_IRQn); #endif }