rt-thread-official/bsp/imxrt/libraries/MIMXRT1050/MIMXRT1052/drivers/fsl_kpp.c

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/*
* Copyright 2017 NXP
* All rights reserved.
*
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* SPDX-License-Identifier: BSD-3-Clause
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*/
#include "fsl_kpp.h"
/*******************************************************************************
* Definitions
******************************************************************************/
/* Component ID definition, used by tools. */
#ifndef FSL_COMPONENT_ID
#define FSL_COMPONENT_ID "platform.drivers.kpp"
#endif
#define KPP_KEYPAD_SCAN_TIMES (3U)
/*******************************************************************************
* Prototypes
******************************************************************************/
/*******************************************************************************
* Variables
******************************************************************************/
#if !(defined(FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) && FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL)
/*! @brief Pointers to SEMC clocks for each instance. */
static const clock_ip_name_t s_kppClock[FSL_FEATURE_SOC_KPP_COUNT] = KPP_CLOCKS;
#endif /* FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL */
/*! @brief Pointers to SEMC bases for each instance. */
static KPP_Type *const s_kppBases[] = KPP_BASE_PTRS;
/*! @brief Pointers to KPP IRQ number for each instance. */
static const IRQn_Type s_kppIrqs[] = KPP_IRQS;
/*******************************************************************************
* Code
******************************************************************************/
static uint32_t KPP_GetInstance(KPP_Type *base)
{
uint32_t instance;
/* Find the instance index from base address mappings. */
for (instance = 0; instance < ARRAY_SIZE(s_kppBases); instance++)
{
if (s_kppBases[instance] == base)
{
break;
}
}
assert(instance < ARRAY_SIZE(s_kppBases));
return instance;
}
static void KPP_Mdelay(uint64_t tickets)
{
while (tickets--)
{
__NOP();
}
}
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/*!
* brief KPP initialize.
* This function ungates the KPP clock and initializes KPP.
* This function must be called before calling any other KPP driver functions.
*
* param base KPP peripheral base address.
* param configure The KPP configuration structure pointer.
*/
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void KPP_Init(KPP_Type *base, kpp_config_t *configure)
{
assert(configure);
uint32_t instance = KPP_GetInstance(base);
#if !(defined(FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) && FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL)
/* Un-gate sdram controller clock. */
CLOCK_EnableClock(s_kppClock[KPP_GetInstance(base)]);
#endif /* FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL */
/* Clear all. */
base->KPSR &= ~(KPP_KPSR_KRIE_MASK | KPP_KPSR_KDIE_MASK);
/* Enable the keypad row and set the column strobe output to open drain. */
base->KPCR = KPP_KPCR_KRE(configure->activeRow);
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base->KPDR = KPP_KPDR_KCD((uint8_t) ~(configure->activeColumn));
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base->KPCR |= KPP_KPCR_KCO(configure->activeColumn);
/* Set the input direction for row and output direction for column. */
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base->KDDR = KPP_KDDR_KCDD(configure->activeColumn) | KPP_KDDR_KRDD((uint8_t) ~(configure->activeRow));
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/* Clear the status flag and enable the interrupt. */
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base->KPSR = KPP_KPSR_KPKR_MASK | KPP_KPSR_KPKD_MASK | KPP_KPSR_KDSC_MASK | configure->interrupt;
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if (configure->interrupt)
{
/* Enable at the Interrupt */
EnableIRQ(s_kppIrqs[instance]);
}
}
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/*!
* brief Deinitializes the KPP module and gates the clock.
* This function gates the KPP clock. As a result, the KPP
* module doesn't work after calling this function.
*
* param base KPP peripheral base address.
*/
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void KPP_Deinit(KPP_Type *base)
{
/* Disable interrupts and disable all rows. */
base->KPSR &= ~(KPP_KPSR_KRIE_MASK | KPP_KPSR_KDIE_MASK);
base->KPCR = 0;
#if !(defined(FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) && FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL)
/* Disable KPP clock. */
CLOCK_DisableClock(s_kppClock[KPP_GetInstance(base)]);
#endif /* FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL */
}
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/*!
* brief Keypad press scanning.
*
* This function will scanning all columns and rows. so
* all scanning data will be stored in the data pointer.
*
* param base KPP peripheral base address.
* param data KPP key press scanning data. The data buffer should be prepared with
* length at least equal to KPP_KEYPAD_COLUMNNUM_MAX * KPP_KEYPAD_ROWNUM_MAX.
* the data pointer is recommended to be a array like uint8_t data[KPP_KEYPAD_COLUMNNUM_MAX].
* for example the data[2] = 4, that means in column 1 row 2 has a key press event.
*/
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void KPP_keyPressScanning(KPP_Type *base, uint8_t *data, uint32_t clockSrc_Hz)
{
assert(data);
uint16_t kppKCO = base->KPCR & KPP_KPCR_KCO_MASK;
uint8_t columIndex = 0;
uint8_t activeColumn = (base->KPCR & KPP_KPCR_KCO_MASK) >> KPP_KPCR_KCO_SHIFT;
uint8_t times;
uint8_t rowData[KPP_KEYPAD_SCAN_TIMES][KPP_KEYPAD_COLUMNNUM_MAX];
bool press = false;
uint8_t column;
/* Initialize row data to zero. */
memset(&rowData[0][0], 0, sizeof(rowData));
/* Scanning. */
/* Configure the column data to 1 according to column numbers. */
base->KPDR = KPP_KPDR_KCD_MASK;
/* Configure column to totem pole for quick discharge of keypad capacitance. */
base->KPCR &= (uint16_t)(((uint16_t)~kppKCO) | KPP_KPCR_KRE_MASK);
/* Recover. */
base->KPCR |= kppKCO;
/* Three times scanning. */
for (times = 0; times < KPP_KEYPAD_SCAN_TIMES; times++)
{
for (columIndex = 0; columIndex < KPP_KEYPAD_COLUMNNUM_MAX; columIndex++)
{
column = activeColumn & (1U << columIndex);
if (column)
{
/* Set the single column line to 0. */
base->KPDR = KPP_KPDR_KCD(~(uint16_t)column);
/* Take 100us delays. */
KPP_Mdelay(clockSrc_Hz / 10000000);
/* Read row data. */
rowData[times][columIndex] = ~(base->KPDR & KPP_KPDR_KRD_MASK);
}
else
{
/* Read row data. */
rowData[times][columIndex] = 0;
}
}
}
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/* Return all columns to 0 in preparation for standby mode. */
base->KPDR &= ~KPP_KPDR_KCD_MASK;
/* Check if three time scan data is the same. */
for (columIndex = 0; columIndex < KPP_KEYPAD_COLUMNNUM_MAX; columIndex++)
{
if ((uint8_t)(rowData[0][columIndex] & rowData[1][columIndex]) & rowData[2][columIndex])
{
press = true;
}
}
if (press)
{
memcpy((void *)data, &rowData[0][0], sizeof(rowData[0]));
}
else
{
memset((void *)data, 0, sizeof(rowData[0]));
}
}