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targets/TARGET_STM/us_ticker_16b.c
- Committer:
- Anythingconnected
- Date:
- 2017-12-18
- Revision:
- 180:d79f997829d6
- Parent:
- 174:b96e65c34a4d
File content as of revision 180:d79f997829d6:
/* mbed Microcontroller Library * Copyright (c) 2006-2016 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 "hal_tick.h" // A 16-bit timer is used #if TIM_MST_16BIT TIM_HandleTypeDef TimMasterHandle; volatile uint32_t SlaveCounter = 0; volatile uint32_t oc_int_part = 0; void us_ticker_init(void) { /* NOTE: assuming that HAL tick has already been initialized! */ } uint32_t us_ticker_read() { uint16_t cntH_old, cntH, cntL; do { cntH_old = SlaveCounter; /* SlaveCounter needs to be checked before AND after we read the * current counter TIM_MST->CNT, in case it wraps around. * there are 2 possible cases of wrap around * 1) in case this function is interrupted by timer_irq_handler and * the SlaveCounter is updated. In that case we will loop again. * 2) in case this function is called from interrupt context during * wrap-around condtion. That would prevent/delay the timer_irq_handler * from being called so we need to locally check the FLAG_UPDATE and * update the cntH accordingly. The SlaveCounter variable itself will * be updated in the interrupt handler just after ... */ if (__HAL_TIM_GET_FLAG(&TimMasterHandle, TIM_FLAG_UPDATE) == SET) { cntH_old += 1; } cntL = TIM_MST->CNT; cntH = SlaveCounter; if (__HAL_TIM_GET_FLAG(&TimMasterHandle, TIM_FLAG_UPDATE) == SET) { cntH += 1; } } while(cntH_old != cntH); // Glue the upper and lower part together to get a 32 bit timer return (uint32_t)(cntH << 16 | cntL); } void us_ticker_set_interrupt(timestamp_t timestamp) { // NOTE: This function must be called with interrupts disabled to keep our // timer interrupt setup atomic // Set new output compare value __HAL_TIM_SET_COMPARE(&TimMasterHandle, TIM_CHANNEL_1, timestamp & 0xFFFF); // Ensure the compare event starts clear __HAL_TIM_CLEAR_FLAG(&TimMasterHandle, TIM_FLAG_CC1); // Enable IT __HAL_TIM_ENABLE_IT(&TimMasterHandle, TIM_IT_CC1); /* Set the number of timer wrap-around loops before the actual timestamp * is reached. If the calculated delta time is more than halfway to the * next compare event, check to see if a compare event has already been * set, and if so, add one to the wrap-around count. This is done to * ensure the correct wrap count is used in the corner cases where the * 16 bit counter passes the compare value during the process of * configuring this interrupt. * * Assumption: The time to execute this function is less than 32ms * (otherwise incorrect behaviour could result) * * Consider the following corner cases: * 1) timestamp is 1 us in the future: * oc_int_part = 0 initially * oc_int_part left at 0 because ((delta - 1) & 0xFFFF) < 0x8000 * Compare event should happen in 1 us and us_ticker_irq_handler() * called * 2) timestamp is 0x8000 us in the future: * oc_int_part = 0 initially * oc_int_part left at 0 because ((delta - 1) & 0xFFFF) < 0x8000 * There should be no possibility of the CC1 flag being set yet * (see assumption above). When the compare event does occur in * 32768 us, us_ticker_irq_handler() will be called * 3) timestamp is 0x8001 us in the future: * oc_int_part = 0 initially * ((delta - 1) & 0xFFFF) >= 0x8000 but there should be no * possibility of the CC1 flag being set yet (see assumption above), * so oc_int_part will be left at 0, and when the compare event * does occur in 32769 us, us_ticker_irq_handler() will be called * 4) timestamp is 0x10000 us in the future: * oc_int_part = 0 initially * ((delta - 1) & 0xFFFF) >= 0x8000 * There are two subcases: * a) The timer counter has not incremented past the compare * value while setting up the interrupt. In this case, the * CC1 flag will not be set, so oc_int_part will be * left at 0, and when the compare event occurs in 65536 us, * us_ticker_irq_handler() will be called * b) The timer counter has JUST incremented past the compare * value. In this case, the CC1 flag will be set, so * oc_int_part will be incremented to 1, and the interrupt will * occur immediately after this function returns, where * oc_int_part will decrement to 0 without calling * us_ticker_irq_handler(). Then about 65536 us later, the * compare event will occur again, and us_ticker_irq_handler() * will be called * 5) timestamp is 0x10001 us in the future: * oc_int_part = 1 initially * oc_int_part left at 1 because ((delta - 1) & 0xFFFF) < 0x8000 * CC1 flag will not be set (see assumption above). In 1 us the * compare event will cause an interrupt, where oc_int_part will be * decremented to 0 without calling us_ticker_irq_handler(). Then * about 65536 us later, the compare event will occur again, and * us_ticker_irq_handler() will be called * 6) timestamp is 0x18000 us in the future: * oc_int_part = 1 initially * oc_int_part left at 1 because ((delta - 1) & 0xFFFF) < 0x8000 * There should be no possibility of the CC1 flag being set yet * (see assumption above). When the compare event does occur in * 32768 us, oc_int_part will be decremented to 0 without calling * us_ticker_irq_handler(). Then about 65536 us later, the * compare event will occur again, and us_ticker_irq_handler() will * be called * 7) timestamp is 0x18001 us in the future: * oc_int_part = 1 initially * ((delta - 1) & 0xFFFF) >= 0x8000 but there should be no * possibility of the CC1 flag being set yet (see assumption above), * so oc_int_part will be left at 1, and when the compare event * does occur in 32769 us, oc_int_part will be decremented to 0 * without calling us_ticker_irq_handler(). Then about 65536 us * later, the compare event will occur again, and * us_ticker_irq_handler() will be called * * delta - 1 is used because the timer compare event happens on the * counter incrementing to match the compare value, and it won't occur * immediately when the compare value is set to the current counter * value. */ uint32_t current_time = us_ticker_read(); uint32_t delta = timestamp - current_time; /* Note: The case of delta <= 0 is handled in MBED upper layer */ oc_int_part = (delta - 1) >> 16; if ( ((delta - 1) & 0xFFFF) >= 0x8000 && __HAL_TIM_GET_FLAG(&TimMasterHandle, TIM_FLAG_CC1) == SET ) { ++oc_int_part; /* NOTE: Instead of incrementing oc_int_part here, we could clear * the CC1 flag, but then you'd have to wait to ensure the * interrupt is knocked down before returning and reenabling * interrupts. Since this is a rare case, it's not worth it * to try and optimize it, and it keeps the code simpler and * safer to just do this increment instead. */ } } void us_ticker_fire_interrupt(void) { /* When firing the event, the number of 16 bits counter wrap-ups (oc_int) * must be re-initialized */ oc_int_part = 0; HAL_TIM_GenerateEvent(&TimMasterHandle, TIM_EVENTSOURCE_CC1); } /* NOTE: must be called with interrupts disabled! */ void us_ticker_disable_interrupt(void) { __HAL_TIM_DISABLE_IT(&TimMasterHandle, TIM_IT_CC1); } /* NOTE: must be called with interrupts disabled! */ void us_ticker_clear_interrupt(void) { __HAL_TIM_CLEAR_FLAG(&TimMasterHandle, TIM_FLAG_CC1); } #endif // TIM_MST_16BIT