diff options
Diffstat (limited to 'bsps/arm/imxrt/nxp/devices/MIMXRT1052/drivers/fsl_adc_etc.c')
-rw-r--r-- | bsps/arm/imxrt/nxp/devices/MIMXRT1052/drivers/fsl_adc_etc.c | 433 |
1 files changed, 433 insertions, 0 deletions
diff --git a/bsps/arm/imxrt/nxp/devices/MIMXRT1052/drivers/fsl_adc_etc.c b/bsps/arm/imxrt/nxp/devices/MIMXRT1052/drivers/fsl_adc_etc.c new file mode 100644 index 0000000000..d912b7045c --- /dev/null +++ b/bsps/arm/imxrt/nxp/devices/MIMXRT1052/drivers/fsl_adc_etc.c @@ -0,0 +1,433 @@ +/* + * Copyright (c) 2016, Freescale Semiconductor, Inc. + * Copyright 2016-2019 NXP + * All rights reserved. + * + * SPDX-License-Identifier: BSD-3-Clause + */ + +#include "fsl_adc_etc.h" + +/* Component ID definition, used by tools. */ +#ifndef FSL_COMPONENT_ID +#define FSL_COMPONENT_ID "platform.drivers.adc_etc" +#endif + +/******************************************************************************* + * Prototypes + ******************************************************************************/ +#if defined(ADC_ETC_CLOCKS) +/*! + * @brief Get instance number for ADC_ETC module. + * + * @param base ADC_ETC peripheral base address + */ +static uint32_t ADC_ETC_GetInstance(ADC_ETC_Type *base); + +/******************************************************************************* + * Variables + ******************************************************************************/ +/*! @brief Pointers to ADC_ETC bases for each instance. */ +static ADC_ETC_Type *const s_adcetcBases[] = ADC_ETC_BASE_PTRS; +#if !(defined(FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) && FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) +/*! @brief Pointers to ADC_ETC clocks for each instance. */ +static const clock_ip_name_t s_adcetcClocks[] = ADC_ETC_CLOCKS; +#endif /* FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL */ + +/******************************************************************************* + * Code + ******************************************************************************/ +static uint32_t ADC_ETC_GetInstance(ADC_ETC_Type *base) +{ + uint32_t instance = 0U; + uint32_t adcetcArrayCount = (sizeof(s_adcetcBases) / sizeof(s_adcetcBases[0])); + + /* Find the instance index from base address mappings. */ + for (instance = 0; instance < adcetcArrayCount; instance++) + { + if (s_adcetcBases[instance] == base) + { + break; + } + } + + return instance; +} +#endif /* ADC_ETC_CLOCKS */ + +/*! + * brief Initialize the ADC_ETC module. + * + * param base ADC_ETC peripheral base address. + * param config Pointer to "adc_etc_config_t" structure. + */ +void ADC_ETC_Init(ADC_ETC_Type *base, const adc_etc_config_t *config) +{ + assert(NULL != config); + + uint32_t tmp32 = 0U; + +#if !(defined(FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) && FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) +#if defined(ADC_ETC_CLOCKS) + /* Open clock gate. */ + CLOCK_EnableClock(s_adcetcClocks[ADC_ETC_GetInstance(base)]); +#endif /* ADC_ETC_CLOCKS */ +#endif /* FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL */ + + /* Disable software reset. */ + ADC_ETC_DoSoftwareReset(base, false); + + /* Set ADC_ETC_CTRL register. */ + tmp32 = ADC_ETC_CTRL_EXT0_TRIG_PRIORITY(config->TSC0triggerPriority) | + ADC_ETC_CTRL_EXT1_TRIG_PRIORITY(config->TSC1triggerPriority) | + ADC_ETC_CTRL_PRE_DIVIDER(config->clockPreDivider) | ADC_ETC_CTRL_TRIG_ENABLE(config->XBARtriggerMask) +#if defined(FSL_FEATURE_ADC_ETC_HAS_CTRL_DMA_MODE_SEL) && FSL_FEATURE_ADC_ETC_HAS_CTRL_DMA_MODE_SEL + | ADC_ETC_CTRL_DMA_MODE_SEL(config->dmaMode) +#endif /*FSL_FEATURE_ADC_ETC_HAS_CTRL_DMA_MODE_SEL*/ + ; + if (config->enableTSCBypass) + { + tmp32 |= ADC_ETC_CTRL_TSC_BYPASS_MASK; + } + if (config->enableTSC0Trigger) + { + tmp32 |= ADC_ETC_CTRL_EXT0_TRIG_ENABLE_MASK; + } + if (config->enableTSC1Trigger) + { + tmp32 |= ADC_ETC_CTRL_EXT1_TRIG_ENABLE_MASK; + } + base->CTRL = tmp32; +} + +/*! + * brief De-Initialize the ADC_ETC module. + * + * param base ADC_ETC peripheral base address. + */ +void ADC_ETC_Deinit(ADC_ETC_Type *base) +{ + /* Do software reset to clear all logical. */ + ADC_ETC_DoSoftwareReset(base, true); + +#if !(defined(FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) && FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) +#if defined(ADC_ETC_CLOCKS) + /* Close clock gate. */ + CLOCK_DisableClock(s_adcetcClocks[ADC_ETC_GetInstance(base)]); +#endif /* ADC_ETC_CLOCKS */ +#endif /* FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL */ +} + +/*! + * brief Gets an available pre-defined settings for the ADC_ETC's configuration. + * This function initializes the ADC_ETC's configuration structure with available settings. The default values are: + * code + * config->enableTSCBypass = true; + * config->enableTSC0Trigger = false; + * config->enableTSC1Trigger = false; + * config->TSC0triggerPriority = 0U; + * config->TSC1triggerPriority = 0U; + * config->clockPreDivider = 0U; + * config->XBARtriggerMask = 0U; + * endCode + * + * param config Pointer to "adc_etc_config_t" structure. + */ +void ADC_ETC_GetDefaultConfig(adc_etc_config_t *config) +{ + /* Initializes the configure structure to zero. */ + (void)memset(config, 0, sizeof(*config)); + + config->enableTSCBypass = true; + config->enableTSC0Trigger = false; + config->enableTSC1Trigger = false; +#if defined(FSL_FEATURE_ADC_ETC_HAS_CTRL_DMA_MODE_SEL) && FSL_FEATURE_ADC_ETC_HAS_CTRL_DMA_MODE_SEL + config->dmaMode = kADC_ETC_TrigDMAWithLatchedSignal; +#endif /*FSL_FEATURE_ADC_ETC_HAS_CTRL_DMA_MODE_SEL*/ + config->TSC0triggerPriority = 0U; + config->TSC1triggerPriority = 0U; + config->clockPreDivider = 0U; + config->XBARtriggerMask = 0U; +} + +/*! + * brief Set the external XBAR trigger configuration. + * + * param base ADC_ETC peripheral base address. + * param triggerGroup Trigger group index. + * param config Pointer to "adc_etc_trigger_config_t" structure. + */ +void ADC_ETC_SetTriggerConfig(ADC_ETC_Type *base, uint32_t triggerGroup, const adc_etc_trigger_config_t *config) +{ + assert(triggerGroup < ADC_ETC_TRIGn_CTRL_COUNT); + assert(ADC_ETC_TRIGn_COUNTER_COUNT > triggerGroup); + + uint32_t tmp32 = 0U; + + /* Set ADC_ETC_TRGn_CTRL register. */ + tmp32 = ADC_ETC_TRIGn_CTRL_TRIG_CHAIN(config->triggerChainLength) | + ADC_ETC_TRIGn_CTRL_TRIG_PRIORITY(config->triggerPriority); + if (config->enableSyncMode) + { + tmp32 |= ADC_ETC_TRIGn_CTRL_SYNC_MODE_MASK; + } + if (config->enableSWTriggerMode) + { + tmp32 |= ADC_ETC_TRIGn_CTRL_TRIG_MODE_MASK; + } + base->TRIG[triggerGroup].TRIGn_CTRL = tmp32; + + /* Set ADC_ETC_TRGn_COUNTER register. */ + tmp32 = ADC_ETC_TRIGn_COUNTER_INIT_DELAY(config->initialDelay) | + ADC_ETC_TRIGn_COUNTER_SAMPLE_INTERVAL(config->sampleIntervalDelay); + base->TRIG[triggerGroup].TRIGn_COUNTER = tmp32; +} + +/*! + * brief Set the external XBAR trigger chain configuration. + * For example, if triggerGroup is set to 0U and chainGroup is set to 1U, which means Trigger0 source's chain1 would be + * configurated. + * + * param base ADC_ETC peripheral base address. + * param triggerGroup Trigger group index. Available number is 0~7. + * param chainGroup Trigger chain group index. Available number is 0~7. + * param config Pointer to "adc_etc_trigger_chain_config_t" structure. + */ +void ADC_ETC_SetTriggerChainConfig(ADC_ETC_Type *base, + uint32_t triggerGroup, + uint32_t chainGroup, + const adc_etc_trigger_chain_config_t *config) +{ + assert(triggerGroup < ADC_ETC_TRIGn_CTRL_COUNT); + + uint32_t tmp32 = 0U; + uint32_t tmpReg = 0U; + uint8_t mRemainder = (uint8_t)(chainGroup % 2U); + + /* Set ADC_ETC_TRIGn_CHAINm register. */ + tmp32 = ADC_ETC_TRIGn_CHAIN_1_0_HWTS0(config->ADCHCRegisterSelect) | + ADC_ETC_TRIGn_CHAIN_1_0_CSEL0(config->ADCChannelSelect) | + ADC_ETC_TRIGn_CHAIN_1_0_IE0(config->InterruptEnable); + if (true == config->enableB2BMode) + { + tmp32 |= ADC_ETC_TRIGn_CHAIN_1_0_B2B0_MASK; + } +#if defined(FSL_FEATURE_ADC_ETC_HAS_TRIGm_CHAIN_a_b_IEn_EN) && FSL_FEATURE_ADC_ETC_HAS_TRIGm_CHAIN_a_b_IEn_EN + if (true == config->enableIrq) + { + tmp32 |= ADC_ETC_TRIGn_CHAIN_1_0_IE0_EN_MASK; + } +#endif /* FSL_FEATURE_ADC_ETC_HAS_TRIGm_CHAIN_a_b_IEn_EN */ + switch (chainGroup / 2U) + { + case 0U: /* Configurate trigger chain0 and chain 1. */ + tmpReg = base->TRIG[triggerGroup].TRIGn_CHAIN_1_0; + if (mRemainder == 0U) /* Chain 0. */ + { + tmpReg &= ~(ADC_ETC_TRIGn_CHAIN_1_0_CSEL0_MASK | ADC_ETC_TRIGn_CHAIN_1_0_HWTS0_MASK | + ADC_ETC_TRIGn_CHAIN_1_0_B2B0_MASK | ADC_ETC_TRIGn_CHAIN_1_0_IE0_MASK); + tmpReg |= tmp32; + } + else /* Chain 1. */ + { + tmpReg &= ~(ADC_ETC_TRIGn_CHAIN_1_0_CSEL1_MASK | ADC_ETC_TRIGn_CHAIN_1_0_HWTS1_MASK | + ADC_ETC_TRIGn_CHAIN_1_0_B2B1_MASK | ADC_ETC_TRIGn_CHAIN_1_0_IE1_MASK); + tmpReg |= (tmp32 << ADC_ETC_TRIGn_CHAIN_1_0_CSEL1_SHIFT); + } + base->TRIG[triggerGroup].TRIGn_CHAIN_1_0 = tmpReg; + break; + case 1U: /* Configurate trigger chain2 and chain 3. */ + tmpReg = base->TRIG[triggerGroup].TRIGn_CHAIN_3_2; + if (mRemainder == 0U) /* Chain 2. */ + { + tmpReg &= ~(ADC_ETC_TRIGn_CHAIN_3_2_CSEL2_MASK | ADC_ETC_TRIGn_CHAIN_3_2_HWTS2_MASK | + ADC_ETC_TRIGn_CHAIN_3_2_B2B2_MASK | ADC_ETC_TRIGn_CHAIN_3_2_IE2_MASK); + tmpReg |= tmp32; + } + else /* Chain 3. */ + { + tmpReg &= ~(ADC_ETC_TRIGn_CHAIN_3_2_CSEL3_MASK | ADC_ETC_TRIGn_CHAIN_3_2_HWTS3_MASK | + ADC_ETC_TRIGn_CHAIN_3_2_B2B3_MASK | ADC_ETC_TRIGn_CHAIN_3_2_IE3_MASK); + tmpReg |= (tmp32 << ADC_ETC_TRIGn_CHAIN_3_2_CSEL3_SHIFT); + } + base->TRIG[triggerGroup].TRIGn_CHAIN_3_2 = tmpReg; + break; + case 2U: /* Configurate trigger chain4 and chain 5. */ + tmpReg = base->TRIG[triggerGroup].TRIGn_CHAIN_5_4; + if (mRemainder == 0U) /* Chain 4. */ + { + tmpReg &= ~(ADC_ETC_TRIGn_CHAIN_5_4_CSEL4_MASK | ADC_ETC_TRIGn_CHAIN_5_4_HWTS4_MASK | + ADC_ETC_TRIGn_CHAIN_5_4_B2B4_MASK | ADC_ETC_TRIGn_CHAIN_5_4_IE4_MASK); + tmpReg |= tmp32; + } + else /* Chain 5. */ + { + tmpReg &= ~(ADC_ETC_TRIGn_CHAIN_5_4_CSEL5_MASK | ADC_ETC_TRIGn_CHAIN_5_4_HWTS5_MASK | + ADC_ETC_TRIGn_CHAIN_5_4_B2B5_MASK | ADC_ETC_TRIGn_CHAIN_5_4_IE5_MASK); + tmpReg |= (tmp32 << ADC_ETC_TRIGn_CHAIN_5_4_CSEL5_SHIFT); + } + base->TRIG[triggerGroup].TRIGn_CHAIN_5_4 = tmpReg; + break; + case 3U: /* Configurate trigger chain6 and chain 7. */ + tmpReg = base->TRIG[triggerGroup].TRIGn_CHAIN_7_6; + if (mRemainder == 0U) /* Chain 6. */ + { + tmpReg &= ~(ADC_ETC_TRIGn_CHAIN_7_6_CSEL6_MASK | ADC_ETC_TRIGn_CHAIN_7_6_HWTS6_MASK | + ADC_ETC_TRIGn_CHAIN_7_6_B2B6_MASK | ADC_ETC_TRIGn_CHAIN_7_6_IE6_MASK); + tmpReg |= tmp32; + } + else /* Chain 7. */ + { + tmpReg &= ~(ADC_ETC_TRIGn_CHAIN_7_6_CSEL7_MASK | ADC_ETC_TRIGn_CHAIN_7_6_HWTS7_MASK | + ADC_ETC_TRIGn_CHAIN_7_6_B2B7_MASK | ADC_ETC_TRIGn_CHAIN_7_6_IE7_MASK); + tmpReg |= (tmp32 << ADC_ETC_TRIGn_CHAIN_7_6_CSEL7_SHIFT); + } + base->TRIG[triggerGroup].TRIGn_CHAIN_7_6 = tmpReg; + break; + default: + assert(false); + break; + } +} + +/*! + * brief Gets the interrupt status flags of external XBAR and TSC triggers. + * + * param base ADC_ETC peripheral base address. + * param sourceIndex trigger source index. + * + * return Status flags mask of trigger. Refer to "_adc_etc_status_flag_mask". + */ +uint32_t ADC_ETC_GetInterruptStatusFlags(ADC_ETC_Type *base, adc_etc_external_trigger_source_t sourceIndex) +{ + uint32_t tmp32 = 0U; + + if (((base->DONE0_1_IRQ) & ((uint32_t)ADC_ETC_DONE0_1_IRQ_TRIG0_DONE0_MASK << (uint32_t)sourceIndex)) != 0U) + { + tmp32 |= (uint32_t)kADC_ETC_Done0StatusFlagMask; /* Customized DONE0 status flags mask, which is defined in + fsl_adc_etc.h file. */ + } + if (((base->DONE0_1_IRQ) & ((uint32_t)ADC_ETC_DONE0_1_IRQ_TRIG0_DONE1_MASK << (uint32_t)sourceIndex)) != 0U) + { + tmp32 |= (uint32_t)kADC_ETC_Done1StatusFlagMask; /* Customized DONE1 status flags mask, which is defined in + fsl_adc_etc.h file. */ + } + if (((base->DONE2_ERR_IRQ) & ((uint32_t)ADC_ETC_DONE2_ERR_IRQ_TRIG0_DONE2_MASK << (uint32_t)sourceIndex)) != 0U) + { + tmp32 |= (uint32_t)kADC_ETC_Done2StatusFlagMask; /* Customized DONE2 status flags mask, which is defined in + fsl_adc_etc.h file. */ + } +#if defined(FSL_FEATURE_ADC_ETC_HAS_TRIGm_CHAIN_a_b_IEn_EN) && FSL_FEATURE_ADC_ETC_HAS_TRIGm_CHAIN_a_b_IEn_EN + if (((base->DONE2_ERR_IRQ) & ((uint32_t)ADC_ETC_DONE2_ERR_IRQ_TRIG0_DONE3_MASK << (uint32_t)sourceIndex)) != 0U) + { + tmp32 |= (uint32_t)kADC_ETC_Done3StatusFlagMask; /* Customized DONE3 status flags mask, which is defined in + fsl_adc_etc.h file. */ + } +#endif /* FSL_FEATURE_ADC_ETC_HAS_TRIGm_CHAIN_a_b_IEn_EN */ + if (((base->DONE2_ERR_IRQ) & ((uint32_t)ADC_ETC_DONE2_ERR_IRQ_TRIG0_ERR_MASK << (uint32_t)sourceIndex)) != 0U) + { + tmp32 |= (uint32_t)kADC_ETC_ErrorStatusFlagMask; /* Customized ERROR status flags mask, which is defined in + fsl_adc_etc.h file. */ + } + return tmp32; +} + +/*! + * brief Clears the ADC_ETC's interrupt status falgs. + * + * param base ADC_ETC peripheral base address. + * param sourceIndex trigger source index. + * param mask Status flags mask of trigger. Refer to "_adc_etc_status_flag_mask". + */ +void ADC_ETC_ClearInterruptStatusFlags(ADC_ETC_Type *base, adc_etc_external_trigger_source_t sourceIndex, uint32_t mask) +{ + if (0U != (mask & (uint32_t)kADC_ETC_Done0StatusFlagMask)) /* Write 1 to clear DONE0 status flags. */ + { + base->DONE0_1_IRQ = ((uint32_t)ADC_ETC_DONE0_1_IRQ_TRIG0_DONE0_MASK << (uint32_t)sourceIndex); + } + if (0U != (mask & (uint32_t)kADC_ETC_Done1StatusFlagMask)) /* Write 1 to clear DONE1 status flags. */ + { + base->DONE0_1_IRQ = ((uint32_t)ADC_ETC_DONE0_1_IRQ_TRIG0_DONE1_MASK << (uint32_t)sourceIndex); + } + if (0U != (mask & (uint32_t)kADC_ETC_Done2StatusFlagMask)) /* Write 1 to clear DONE2 status flags. */ + { + base->DONE2_ERR_IRQ = ((uint32_t)ADC_ETC_DONE2_ERR_IRQ_TRIG0_DONE2_MASK << (uint32_t)sourceIndex); + } +#if defined(FSL_FEATURE_ADC_ETC_HAS_TRIGm_CHAIN_a_b_IEn_EN) && FSL_FEATURE_ADC_ETC_HAS_TRIGm_CHAIN_a_b_IEn_EN + if (0U != (mask & (uint32_t)kADC_ETC_Done3StatusFlagMask)) /* Write 1 to clear DONE3 status flags. */ + { + base->DONE2_ERR_IRQ = ((uint32_t)ADC_ETC_DONE2_ERR_IRQ_TRIG0_DONE3_MASK << (uint32_t)sourceIndex); + } +#endif /* FSL_FEATURE_ADC_ETC_HAS_TRIGm_CHAIN_a_b_IEn_EN */ + if (0U != (mask & (uint32_t)kADC_ETC_ErrorStatusFlagMask)) /* Write 1 to clear ERROR status flags. */ + { + base->DONE2_ERR_IRQ = ((uint32_t)ADC_ETC_DONE2_ERR_IRQ_TRIG0_ERR_MASK << (uint32_t)sourceIndex); + } +} + +/*! + * brief Get ADC conversion result from external XBAR sources. + * For example, if triggerGroup is set to 0U and chainGroup is set to 1U, which means the API would + * return Trigger0 source's chain1 conversion result. + * + * param base ADC_ETC peripheral base address. + * param triggerGroup Trigger group index. Available number is 0~7. + * param chainGroup Trigger chain group index. Available number is 0~7. + * return ADC conversion result value. + */ +uint32_t ADC_ETC_GetADCConversionValue(ADC_ETC_Type *base, uint32_t triggerGroup, uint32_t chainGroup) +{ + assert(triggerGroup < ADC_ETC_TRIGn_RESULT_1_0_COUNT); + + uint32_t mADCResult; + uint8_t mRemainder = (uint8_t)(chainGroup % 2U); + + switch (chainGroup / 2U) + { + case 0U: + if (0U == mRemainder) + { + mADCResult = ADC_ETC_TRIGn_RESULT_1_0_DATA0_MASK & (base->TRIG[triggerGroup].TRIGn_RESULT_1_0); + } + else + { + mADCResult = (base->TRIG[triggerGroup].TRIGn_RESULT_1_0) >> ADC_ETC_TRIGn_RESULT_1_0_DATA1_SHIFT; + } + break; + case 1U: + if (0U == mRemainder) + { + mADCResult = ADC_ETC_TRIGn_RESULT_3_2_DATA2_MASK & (base->TRIG[triggerGroup].TRIGn_RESULT_3_2); + } + else + { + mADCResult = (base->TRIG[triggerGroup].TRIGn_RESULT_3_2) >> ADC_ETC_TRIGn_RESULT_3_2_DATA3_SHIFT; + } + break; + case 2U: + if (0U == mRemainder) + { + mADCResult = ADC_ETC_TRIGn_RESULT_5_4_DATA4_MASK & (base->TRIG[triggerGroup].TRIGn_RESULT_5_4); + } + else + { + mADCResult = (base->TRIG[triggerGroup].TRIGn_RESULT_5_4) >> ADC_ETC_TRIGn_RESULT_5_4_DATA5_SHIFT; + } + break; + case 3U: + if (0U == mRemainder) + { + mADCResult = ADC_ETC_TRIGn_RESULT_7_6_DATA6_MASK & (base->TRIG[triggerGroup].TRIGn_RESULT_7_6); + } + else + { + mADCResult = (base->TRIG[triggerGroup].TRIGn_RESULT_7_6) >> ADC_ETC_TRIGn_RESULT_7_6_DATA7_SHIFT; + } + break; + default: + mADCResult = 0U; + assert(false); + break; + } + return mADCResult; +} |