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Release 4.11 drivers/iio/adc/stm32-adc.c

Directory: drivers/iio/adc
/*
 * This file is part of STM32 ADC driver
 *
 * Copyright (C) 2016, STMicroelectronics - All Rights Reserved
 * Author: Fabrice Gasnier <fabrice.gasnier@st.com>.
 *
 * License type: GPLv2
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 as published by
 * the Free Software Foundation.
 *
 * This program is distributed in the hope that it will be useful, but
 * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
 * or FITNESS FOR A PARTICULAR PURPOSE.
 * See the GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License along with
 * this program. If not, see <http://www.gnu.org/licenses/>.
 */

#include <linux/clk.h>
#include <linux/delay.h>
#include <linux/dma-mapping.h>
#include <linux/dmaengine.h>
#include <linux/iio/iio.h>
#include <linux/iio/buffer.h>
#include <linux/iio/timer/stm32-timer-trigger.h>
#include <linux/iio/trigger.h>
#include <linux/iio/trigger_consumer.h>
#include <linux/iio/triggered_buffer.h>
#include <linux/interrupt.h>
#include <linux/io.h>
#include <linux/module.h>
#include <linux/platform_device.h>
#include <linux/of.h>

#include "stm32-adc-core.h"

/* STM32F4 - Registers for each ADC instance */

#define STM32F4_ADC_SR			0x00

#define STM32F4_ADC_CR1			0x04

#define STM32F4_ADC_CR2			0x08

#define STM32F4_ADC_SMPR1		0x0C

#define STM32F4_ADC_SMPR2		0x10

#define STM32F4_ADC_HTR			0x24

#define STM32F4_ADC_LTR			0x28

#define STM32F4_ADC_SQR1		0x2C

#define STM32F4_ADC_SQR2		0x30

#define STM32F4_ADC_SQR3		0x34

#define STM32F4_ADC_JSQR		0x38

#define STM32F4_ADC_JDR1		0x3C

#define STM32F4_ADC_JDR2		0x40

#define STM32F4_ADC_JDR3		0x44

#define STM32F4_ADC_JDR4		0x48

#define STM32F4_ADC_DR			0x4C

/* STM32F4_ADC_SR - bit fields */

#define STM32F4_STRT			BIT(4)

#define STM32F4_EOC			BIT(1)

/* STM32F4_ADC_CR1 - bit fields */

#define STM32F4_SCAN			BIT(8)

#define STM32F4_EOCIE			BIT(5)

/* STM32F4_ADC_CR2 - bit fields */

#define STM32F4_SWSTART			BIT(30)

#define STM32F4_EXTEN_SHIFT		28

#define STM32F4_EXTEN_MASK		GENMASK(29, 28)

#define STM32F4_EXTSEL_SHIFT		24

#define STM32F4_EXTSEL_MASK		GENMASK(27, 24)

#define STM32F4_EOCS			BIT(10)

#define STM32F4_DDS			BIT(9)

#define STM32F4_DMA			BIT(8)

#define STM32F4_ADON			BIT(0)


#define STM32_ADC_MAX_SQ		16	
/* SQ1..SQ16 */

#define STM32_ADC_TIMEOUT_US		100000

#define STM32_ADC_TIMEOUT	(msecs_to_jiffies(STM32_ADC_TIMEOUT_US / 1000))


#define STM32_DMA_BUFFER_SIZE		PAGE_SIZE

/* External trigger enable */

enum stm32_adc_exten {
	
STM32_EXTEN_SWTRIG,
	
STM32_EXTEN_HWTRIG_RISING_EDGE,
	
STM32_EXTEN_HWTRIG_FALLING_EDGE,
	
STM32_EXTEN_HWTRIG_BOTH_EDGES,
};

/* extsel - trigger mux selection value */

enum stm32_adc_extsel {
	
STM32_EXT0,
	
STM32_EXT1,
	
STM32_EXT2,
	
STM32_EXT3,
	
STM32_EXT4,
	
STM32_EXT5,
	
STM32_EXT6,
	
STM32_EXT7,
	
STM32_EXT8,
	
STM32_EXT9,
	
STM32_EXT10,
	
STM32_EXT11,
	
STM32_EXT12,
	
STM32_EXT13,
	
STM32_EXT14,
	
STM32_EXT15,
};

/**
 * struct stm32_adc_trig_info - ADC trigger info
 * @name:               name of the trigger, corresponding to its source
 * @extsel:             trigger selection
 */

struct stm32_adc_trig_info {
	
const char *name;
	
enum stm32_adc_extsel extsel;
};

/**
 * stm32_adc_regs - stm32 ADC misc registers & bitfield desc
 * @reg:                register offset
 * @mask:               bitfield mask
 * @shift:              left shift
 */

struct stm32_adc_regs {
	
int reg;
	
int mask;
	
int shift;
};

/**
 * struct stm32_adc - private data of each ADC IIO instance
 * @common:             reference to ADC block common data
 * @offset:             ADC instance register offset in ADC block
 * @completion:         end of single conversion completion
 * @buffer:             data buffer
 * @clk:                clock for this adc instance
 * @irq:                interrupt for this adc instance
 * @lock:               spinlock
 * @bufi:               data buffer index
 * @num_conv:           expected number of scan conversions
 * @trigger_polarity:   external trigger polarity (e.g. exten)
 * @dma_chan:           dma channel
 * @rx_buf:             dma rx buffer cpu address
 * @rx_dma_buf:         dma rx buffer bus address
 * @rx_buf_sz:          dma rx buffer size
 */

struct stm32_adc {
	
struct stm32_adc_common	*common;
	
u32			offset;
	
struct completion	completion;
	
u16			buffer[STM32_ADC_MAX_SQ];
	
struct clk		*clk;
	
int			irq;
	
spinlock_t		lock;		/* interrupt lock */
	
unsigned int		bufi;
	
unsigned int		num_conv;
	
u32			trigger_polarity;
	
struct dma_chan		*dma_chan;
	
u8			*rx_buf;
	
dma_addr_t		rx_dma_buf;
	
unsigned int		rx_buf_sz;
};

/**
 * struct stm32_adc_chan_spec - specification of stm32 adc channel
 * @type:       IIO channel type
 * @channel:    channel number (single ended)
 * @name:       channel name (single ended)
 */

struct stm32_adc_chan_spec {
	
enum iio_chan_type	type;
	
int			channel;
	
const char		*name;
};

/* Input definitions common for all STM32F4 instances */

static const struct stm32_adc_chan_spec stm32f4_adc123_channels[] = {
	{ IIO_VOLTAGE, 0, "in0" },
	{ IIO_VOLTAGE, 1, "in1" },
	{ IIO_VOLTAGE, 2, "in2" },
	{ IIO_VOLTAGE, 3, "in3" },
	{ IIO_VOLTAGE, 4, "in4" },
	{ IIO_VOLTAGE, 5, "in5" },
	{ IIO_VOLTAGE, 6, "in6" },
	{ IIO_VOLTAGE, 7, "in7" },
	{ IIO_VOLTAGE, 8, "in8" },
	{ IIO_VOLTAGE, 9, "in9" },
	{ IIO_VOLTAGE, 10, "in10" },
	{ IIO_VOLTAGE, 11, "in11" },
	{ IIO_VOLTAGE, 12, "in12" },
	{ IIO_VOLTAGE, 13, "in13" },
	{ IIO_VOLTAGE, 14, "in14" },
	{ IIO_VOLTAGE, 15, "in15" },
};

/**
 * stm32f4_sq - describe regular sequence registers
 * - L: sequence len (register & bit field)
 * - SQ1..SQ16: sequence entries (register & bit field)
 */

static const struct stm32_adc_regs stm32f4_sq[STM32_ADC_MAX_SQ + 1] = {
	/* L: len bit field description to be kept as first element */
	{ STM32F4_ADC_SQR1, GENMASK(23, 20), 20 },
	/* SQ1..SQ16 registers & bit fields (reg, mask, shift) */
	{ STM32F4_ADC_SQR3, GENMASK(4, 0), 0 },
	{ STM32F4_ADC_SQR3, GENMASK(9, 5), 5 },
	{ STM32F4_ADC_SQR3, GENMASK(14, 10), 10 },
	{ STM32F4_ADC_SQR3, GENMASK(19, 15), 15 },
	{ STM32F4_ADC_SQR3, GENMASK(24, 20), 20 },
	{ STM32F4_ADC_SQR3, GENMASK(29, 25), 25 },
	{ STM32F4_ADC_SQR2, GENMASK(4, 0), 0 },
	{ STM32F4_ADC_SQR2, GENMASK(9, 5), 5 },
	{ STM32F4_ADC_SQR2, GENMASK(14, 10), 10 },
	{ STM32F4_ADC_SQR2, GENMASK(19, 15), 15 },
	{ STM32F4_ADC_SQR2, GENMASK(24, 20), 20 },
	{ STM32F4_ADC_SQR2, GENMASK(29, 25), 25 },
	{ STM32F4_ADC_SQR1, GENMASK(4, 0), 0 },
	{ STM32F4_ADC_SQR1, GENMASK(9, 5), 5 },
	{ STM32F4_ADC_SQR1, GENMASK(14, 10), 10 },
	{ STM32F4_ADC_SQR1, GENMASK(19, 15), 15 },
};

/* STM32F4 external trigger sources for all instances */

static struct stm32_adc_trig_info stm32f4_adc_trigs[] = {
	{ TIM1_CH1, STM32_EXT0 },
	{ TIM1_CH2, STM32_EXT1 },
	{ TIM1_CH3, STM32_EXT2 },
	{ TIM2_CH2, STM32_EXT3 },
	{ TIM2_CH3, STM32_EXT4 },
	{ TIM2_CH4, STM32_EXT5 },
	{ TIM2_TRGO, STM32_EXT6 },
	{ TIM3_CH1, STM32_EXT7 },
	{ TIM3_TRGO, STM32_EXT8 },
	{ TIM4_CH4, STM32_EXT9 },
	{ TIM5_CH1, STM32_EXT10 },
	{ TIM5_CH2, STM32_EXT11 },
	{ TIM5_CH3, STM32_EXT12 },
	{ TIM8_CH1, STM32_EXT13 },
	{ TIM8_TRGO, STM32_EXT14 },
	{}, /* sentinel */
};

/**
 * STM32 ADC registers access routines
 * @adc: stm32 adc instance
 * @reg: reg offset in adc instance
 *
 * Note: All instances share same base, with 0x0, 0x100 or 0x200 offset resp.
 * for adc1, adc2 and adc3.
 */

static u32 stm32_adc_readl(struct stm32_adc *adc, u32 reg) { return readl_relaxed(adc->common->base + adc->offset + reg); }

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static u16 stm32_adc_readw(struct stm32_adc *adc, u32 reg) { return readw_relaxed(adc->common->base + adc->offset + reg); }

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static void stm32_adc_writel(struct stm32_adc *adc, u32 reg, u32 val) { writel_relaxed(val, adc->common->base + adc->offset + reg); }

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static void stm32_adc_set_bits(struct stm32_adc *adc, u32 reg, u32 bits) { unsigned long flags; spin_lock_irqsave(&adc->lock, flags); stm32_adc_writel(adc, reg, stm32_adc_readl(adc, reg) | bits); spin_unlock_irqrestore(&adc->lock, flags); }

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static void stm32_adc_clr_bits(struct stm32_adc *adc, u32 reg, u32 bits) { unsigned long flags; spin_lock_irqsave(&adc->lock, flags); stm32_adc_writel(adc, reg, stm32_adc_readl(adc, reg) & ~bits); spin_unlock_irqrestore(&adc->lock, flags); }

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/** * stm32_adc_conv_irq_enable() - Enable end of conversion interrupt * @adc: stm32 adc instance */
static void stm32_adc_conv_irq_enable(struct stm32_adc *adc) { stm32_adc_set_bits(adc, STM32F4_ADC_CR1, STM32F4_EOCIE); }

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; /** * stm32_adc_conv_irq_disable() - Disable end of conversion interrupt * @adc: stm32 adc instance */
static void stm32_adc_conv_irq_disable(struct stm32_adc *adc) { stm32_adc_clr_bits(adc, STM32F4_ADC_CR1, STM32F4_EOCIE); }

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/** * stm32_adc_start_conv() - Start conversions for regular channels. * @adc: stm32 adc instance * @dma: use dma to transfer conversion result * * Start conversions for regular channels. * Also take care of normal or DMA mode. Circular DMA may be used for regular * conversions, in IIO buffer modes. Otherwise, use ADC interrupt with direct * DR read instead (e.g. read_raw, or triggered buffer mode without DMA). */
static void stm32_adc_start_conv(struct stm32_adc *adc, bool dma) { stm32_adc_set_bits(adc, STM32F4_ADC_CR1, STM32F4_SCAN); if (dma) stm32_adc_set_bits(adc, STM32F4_ADC_CR2, STM32F4_DMA | STM32F4_DDS); stm32_adc_set_bits(adc, STM32F4_ADC_CR2, STM32F4_EOCS | STM32F4_ADON); /* Wait for Power-up time (tSTAB from datasheet) */ usleep_range(2, 3); /* Software start ? (e.g. trigger detection disabled ?) */ if (!(stm32_adc_readl(adc, STM32F4_ADC_CR2) & STM32F4_EXTEN_MASK)) stm32_adc_set_bits(adc, STM32F4_ADC_CR2, STM32F4_SWSTART); }

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static void stm32_adc_stop_conv(struct stm32_adc *adc) { stm32_adc_clr_bits(adc, STM32F4_ADC_CR2, STM32F4_EXTEN_MASK); stm32_adc_clr_bits(adc, STM32F4_ADC_SR, STM32F4_STRT); stm32_adc_clr_bits(adc, STM32F4_ADC_CR1, STM32F4_SCAN); stm32_adc_clr_bits(adc, STM32F4_ADC_CR2, STM32F4_ADON | STM32F4_DMA | STM32F4_DDS); }

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/** * stm32_adc_conf_scan_seq() - Build regular channels scan sequence * @indio_dev: IIO device * @scan_mask: channels to be converted * * Conversion sequence : * Configure ADC scan sequence based on selected channels in scan_mask. * Add channels to SQR registers, from scan_mask LSB to MSB, then * program sequence len. */
static int stm32_adc_conf_scan_seq(struct iio_dev *indio_dev, const unsigned long *scan_mask) { struct stm32_adc *adc = iio_priv(indio_dev); const struct iio_chan_spec *chan; u32 val, bit; int i = 0; for_each_set_bit(bit, scan_mask, indio_dev->masklength) { chan = indio_dev->channels + bit; /* * Assign one channel per SQ entry in regular * sequence, starting with SQ1. */ i++; if (i > STM32_ADC_MAX_SQ) return -EINVAL; dev_dbg(&indio_dev->dev, "%s chan %d to SQ%d\n", __func__, chan->channel, i); val = stm32_adc_readl(adc, stm32f4_sq[i].reg); val &= ~stm32f4_sq[i].mask; val |= chan->channel << stm32f4_sq[i].shift; stm32_adc_writel(adc, stm32f4_sq[i].reg, val); } if (!i) return -EINVAL; /* Sequence len */ val = stm32_adc_readl(adc, stm32f4_sq[0].reg); val &= ~stm32f4_sq[0].mask; val |= ((i - 1) << stm32f4_sq[0].shift); stm32_adc_writel(adc, stm32f4_sq[0].reg, val); return 0; }

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/** * stm32_adc_get_trig_extsel() - Get external trigger selection * @trig: trigger * * Returns trigger extsel value, if trig matches, -EINVAL otherwise. */
static int stm32_adc_get_trig_extsel(struct iio_trigger *trig) { int i; /* lookup triggers registered by stm32 timer trigger driver */ for (i = 0; stm32f4_adc_trigs[i].name; i++) { /** * Checking both stm32 timer trigger type and trig name * should be safe against arbitrary trigger names. */ if (is_stm32_timer_trigger(trig) && !strcmp(stm32f4_adc_trigs[i].name, trig->name)) { return stm32f4_adc_trigs[i].extsel; } } return -EINVAL; }

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/** * stm32_adc_set_trig() - Set a regular trigger * @indio_dev: IIO device * @trig: IIO trigger * * Set trigger source/polarity (e.g. SW, or HW with polarity) : * - if HW trigger disabled (e.g. trig == NULL, conversion launched by sw) * - if HW trigger enabled, set source & polarity */
static int stm32_adc_set_trig(struct iio_dev *indio_dev, struct iio_trigger *trig) { struct stm32_adc *adc = iio_priv(indio_dev); u32 val, extsel = 0, exten = STM32_EXTEN_SWTRIG; unsigned long flags; int ret; if (trig) { ret = stm32_adc_get_trig_extsel(trig); if (ret < 0) return ret; /* set trigger source and polarity (default to rising edge) */ extsel = ret; exten = adc->trigger_polarity + STM32_EXTEN_HWTRIG_RISING_EDGE; } spin_lock_irqsave(&adc->lock, flags); val = stm32_adc_readl(adc, STM32F4_ADC_CR2); val &= ~(STM32F4_EXTEN_MASK | STM32F4_EXTSEL_MASK); val |= exten << STM32F4_EXTEN_SHIFT; val |= extsel << STM32F4_EXTSEL_SHIFT; stm32_adc_writel(adc, STM32F4_ADC_CR2, val); spin_unlock_irqrestore(&adc->lock, flags); return 0; }

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static int stm32_adc_set_trig_pol(struct iio_dev *indio_dev, const struct iio_chan_spec *chan, unsigned int type) { struct stm32_adc *adc = iio_priv(indio_dev); adc->trigger_polarity = type; return 0; }

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static int stm32_adc_get_trig_pol(struct iio_dev *indio_dev, const struct iio_chan_spec *chan) { struct stm32_adc *adc = iio_priv(indio_dev); return adc->trigger_polarity; }

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static const char * const stm32_trig_pol_items[] = { "rising-edge", "falling-edge", "both-edges", }; static const struct iio_enum stm32_adc_trig_pol = { .items = stm32_trig_pol_items, .num_items = ARRAY_SIZE(stm32_trig_pol_items), .get = stm32_adc_get_trig_pol, .set = stm32_adc_set_trig_pol, }; /** * stm32_adc_single_conv() - Performs a single conversion * @indio_dev: IIO device * @chan: IIO channel * @res: conversion result * * The function performs a single conversion on a given channel: * - Program sequencer with one channel (e.g. in SQ1 with len = 1) * - Use SW trigger * - Start conversion, then wait for interrupt completion. */
static int stm32_adc_single_conv(struct iio_dev *indio_dev, const struct iio_chan_spec *chan, int *res) { struct stm32_adc *adc = iio_priv(indio_dev); long timeout; u32 val; int ret; reinit_completion(&adc->completion); adc->bufi = 0; /* Program chan number in regular sequence (SQ1) */ val = stm32_adc_readl(adc, stm32f4_sq[1].reg); val &= ~stm32f4_sq[1].mask; val |= chan->channel << stm32f4_sq[1].shift; stm32_adc_writel(adc, stm32f4_sq[1].reg, val); /* Set regular sequence len (0 for 1 conversion) */ stm32_adc_clr_bits(adc, stm32f4_sq[0].reg, stm32f4_sq[0].mask); /* Trigger detection disabled (conversion can be launched in SW) */ stm32_adc_clr_bits(adc, STM32F4_ADC_CR2, STM32F4_EXTEN_MASK); stm32_adc_conv_irq_enable(adc); stm32_adc_start_conv(adc, false); timeout = wait_for_completion_interruptible_timeout( &adc->completion, STM32_ADC_TIMEOUT); if (timeout == 0) { ret = -ETIMEDOUT; } else if (timeout < 0) { ret = timeout; } else { *res = adc->buffer[0]; ret = IIO_VAL_INT; } stm32_adc_stop_conv(adc); stm32_adc_conv_irq_disable(adc); return ret; }

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static int stm32_adc_read_raw(struct iio_dev *indio_dev, struct iio_chan_spec const *chan, int *val, int *val2, long mask) { struct stm32_adc *adc = iio_priv(indio_dev); int ret; switch (mask) { case IIO_CHAN_INFO_RAW: ret = iio_device_claim_direct_mode(indio_dev); if (ret) return ret; if (chan->type == IIO_VOLTAGE) ret = stm32_adc_single_conv(indio_dev, chan, val); else ret = -EINVAL; iio_device_release_direct_mode(indio_dev); return ret; case IIO_CHAN_INFO_SCALE: *val = adc->common->vref_mv; *val2 = chan->scan_type.realbits; return IIO_VAL_FRACTIONAL_LOG2; default: return -EINVAL; } }

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static irqreturn_t stm32_adc_isr(int irq, void *data) { struct stm32_adc *adc = data; struct iio_dev *indio_dev = iio_priv_to_dev(adc); u32 status = stm32_adc_readl(adc, STM32F4_ADC_SR); if (status & STM32F4_EOC) { /* Reading DR also clears EOC status flag */ adc->buffer[adc->bufi] = stm32_adc_readw(adc, STM32F4_ADC_DR); if (iio_buffer_enabled(indio_dev)) { adc->bufi++; if (adc->bufi >= adc->num_conv) { stm32_adc_conv_irq_disable(adc); iio_trigger_poll(indio_dev->trig); } } else { complete(&adc->completion); } return IRQ_HANDLED; } return IRQ_NONE; }

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/** * stm32_adc_validate_trigger() - validate trigger for stm32 adc * @indio_dev: IIO device * @trig: new trigger * * Returns: 0 if trig matches one of the triggers registered by stm32 adc * driver, -EINVAL otherwise. */
static int stm32_adc_validate_trigger(struct iio_dev *indio_dev, struct iio_trigger *trig) { return stm32_adc_get_trig_extsel(trig) < 0 ? -EINVAL : 0; }

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static int stm32_adc_set_watermark(struct iio_dev *indio_dev, unsigned int val) { struct stm32_adc *adc = iio_priv(indio_dev); unsigned int watermark = STM32_DMA_BUFFER_SIZE / 2; /* * dma cyclic transfers are used, buffer is split into two periods. * There should be : * - always one buffer (period) dma is working on * - one buffer (period) driver can push with iio_trigger_poll(). */ watermark = min(watermark, val * (unsigned)(sizeof(u16))); adc->rx_buf_sz = watermark * 2; return 0; }

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static int stm32_adc_update_scan_mode(struct iio_dev *indio_dev, const unsigned long *scan_mask) { struct stm32_adc *adc = iio_priv(indio_dev); int ret; adc->num_conv = bitmap_weight(scan_mask, indio_dev->masklength); ret = stm32_adc_conf_scan_seq(indio_dev, scan_mask); if (ret) return ret; return 0; }

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static int stm32_adc_of_xlate(struct iio_dev *indio_dev, const struct of_phandle_args *iiospec) { int i; for (i = 0; i < indio_dev->num_channels; i++) if (indio_dev->channels[i].channel == iiospec->args[0]) return i; return -EINVAL; }

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/** * stm32_adc_debugfs_reg_access - read or write register value * * To read a value from an ADC register: * echo [ADC reg offset] > direct_reg_access * cat direct_reg_access * * To write a value in a ADC register: * echo [ADC_reg_offset] [value] > direct_reg_access */
static int stm32_adc_debugfs_reg_access(struct iio_dev *indio_dev, unsigned reg, unsigned writeval, unsigned *readval) { struct stm32_adc *adc = iio_priv(indio_dev); if (!readval) stm32_adc_writel(adc, reg, writeval); else *readval = stm32_adc_readl(adc, reg); return 0; }

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static const struct iio_info stm32_adc_iio_info = { .read_raw = stm32_adc_read_raw, .validate_trigger = stm32_adc_validate_trigger, .hwfifo_set_watermark = stm32_adc_set_watermark, .update_scan_mode = stm32_adc_update_scan_mode, .debugfs_reg_access = stm32_adc_debugfs_reg_access, .of_xlate = stm32_adc_of_xlate, .driver_module = THIS_MODULE, };
static unsigned int stm32_adc_dma_residue(struct stm32_adc *adc) { struct dma_tx_state state; enum dma_status status; status = dmaengine_tx_status(adc->dma_chan, adc->dma_chan->cookie, &state); if (status == DMA_IN_PROGRESS) { /* Residue is size in bytes from end of buffer */ unsigned int i = adc->rx_buf_sz - state.residue; unsigned int size; /* Return available bytes */ if (i >= adc->bufi) size = i - adc->bufi; else size = adc->rx_buf_sz + i - adc->bufi; return size; } return 0; }

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static void stm32_adc_dma_buffer_done(void *data) { struct iio_dev *indio_dev = data; iio_trigger_poll_chained(indio_dev->trig); }

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static int stm32_adc_dma_start(struct iio_dev *indio_dev) { struct stm32_adc *adc = iio_priv(indio_dev); struct dma_async_tx_descriptor *desc; dma_cookie_t cookie; int ret; if (!adc->dma_chan) return 0; dev_dbg(&indio_dev->dev, "%s size=%d watermark=%d\n", __func__, adc->rx_buf_sz, adc->rx_buf_sz / 2); /* Prepare a DMA cyclic transaction */ desc = dmaengine_prep_dma_cyclic(adc->dma_chan, adc->rx_dma_buf, adc->rx_buf_sz, adc->rx_buf_sz / 2, DMA_DEV_TO_MEM, DMA_PREP_INTERRUPT); if (!desc) return -EBUSY; desc->callback = stm32_adc_dma_buffer_done; desc->callback_param = indio_dev; cookie = dmaengine_submit(desc); ret = dma_submit_error(cookie); if (ret) { dmaengine_terminate_all(adc->dma_chan); return ret; } /* Issue pending DMA requests */ dma_async_issue_pending(adc->dma_chan); return 0; }

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static int stm32_adc_buffer_postenable(struct iio_dev *indio_dev) { struct stm32_adc *adc = iio_priv(indio_dev); int ret; ret = stm32_adc_set_trig(indio_dev, indio_dev->trig); if (ret) { dev_err(&indio_dev->dev, "Can't set trigger\n"); return ret; } ret = stm32_adc_dma_start(indio_dev); if (ret) { dev_err(&indio_dev->dev, "Can't start dma\n"); goto err_clr_trig; } ret = iio_triggered_buffer_postenable(indio_dev); if (ret < 0) goto err_stop_dma; /* Reset adc buffer index */ adc->bufi = 0; if (!adc->dma_chan) stm32_adc_conv_irq_enable(adc); stm32_adc_start_conv(adc, !!adc->dma_chan); return 0; err_stop_dma: if (adc->dma_chan) dmaengine_terminate_all(adc->dma_chan); err_clr_trig: stm32_adc_set_trig(indio_dev, NULL); return ret; }

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static int stm32_adc_buffer_predisable(struct iio_dev *indio_dev) { struct stm32_adc *adc = iio_priv(indio_dev); int ret; stm32_adc_stop_conv(adc); if (!adc->dma_chan) stm32_adc_conv_irq_disable(adc); ret = iio_triggered_buffer_predisable(indio_dev); if (ret < 0) dev_err(&indio_dev->dev, "predisable failed\n"); if (adc->dma_chan) dmaengine_terminate_all(adc->dma_chan); if (stm32_adc_set_trig(indio_dev, NULL)) dev_err(&indio_dev->dev, "Can't clear trigger\n"); return ret; }

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static const struct iio_buffer_setup_ops stm32_adc_buffer_setup_ops = { .postenable = &stm32_adc_buffer_postenable, .predisable = &stm32_adc_buffer_predisable, };
static irqreturn_t stm32_adc_trigger_handler(int irq, void *p) { struct iio_poll_func *pf = p; struct iio_dev *indio_dev = pf->indio_dev; struct stm32_adc *adc = iio_priv(indio_dev); dev_dbg(&indio_dev->dev, "%s bufi=%d\n", __func__, adc->bufi); if (!adc->dma_chan) { /* reset buffer index */ adc->bufi = 0; iio_push_to_buffers_with_timestamp(indio_dev, adc->buffer, pf->timestamp); } else { int residue = stm32_adc_dma_residue(adc); while (residue >= indio_dev->scan_bytes) { u16 *buffer = (u16 *)&adc->rx_buf[adc->bufi]; iio_push_to_buffers_with_timestamp(indio_dev, buffer, pf->timestamp); residue -= indio_dev->scan_bytes; adc->bufi += indio_dev->scan_bytes; if (adc->bufi >= adc->rx_buf_sz) adc->bufi = 0; } } iio_trigger_notify_done(indio_dev->trig); /* re-enable eoc irq */ if (!adc->dma_chan) stm32_adc_conv_irq_enable(adc); return IRQ_HANDLED; }

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static const struct iio_chan_spec_ext_info stm32_adc_ext_info[] = { IIO_ENUM("trigger_polarity", IIO_SHARED_BY_ALL, &stm32_adc_trig_pol), { .name = "trigger_polarity_available", .shared = IIO_SHARED_BY_ALL, .read = iio_enum_available_read, .private = (uintptr_t)&stm32_adc_trig_pol, }, {}, };
static void stm32_adc_chan_init_one(struct iio_dev *indio_dev, struct iio_chan_spec *chan, const struct stm32_adc_chan_spec *channel, int scan_index) { chan->type = channel->type; chan->channel = channel->channel; chan->datasheet_name = channel->name; chan->scan_index = scan_index; chan->indexed = 1; chan->info_mask_separate = BIT(IIO_CHAN_INFO_RAW); chan->info_mask_shared_by_type = BIT(IIO_CHAN_INFO_SCALE); chan->scan_type.sign = 'u'; chan->scan_type.realbits = 12; chan->scan_type.storagebits = 16; chan->ext_info = stm32_adc_ext_info; }

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static int stm32_adc_chan_of_init(struct iio_dev *indio_dev) { struct device_node *node = indio_dev->dev.of_node; struct property *prop; const __be32 *cur; struct iio_chan_spec *channels; int scan_index = 0, num_channels; u32 val; num_channels = of_property_count_u32_elems(node, "st,adc-channels"); if (num_channels < 0 || num_channels >= ARRAY_SIZE(stm32f4_adc123_channels)) { dev_err(&indio_dev->dev, "Bad st,adc-channels?\n"); return num_channels < 0 ? num_channels : -EINVAL; } channels = devm_kcalloc(&indio_dev->dev, num_channels, sizeof(struct iio_chan_spec), GFP_KERNEL); if (!channels) return -ENOMEM; of_property_for_each_u32(node, "st,adc-channels", prop, cur, val) { if (val >= ARRAY_SIZE(stm32f4_adc123_channels)) { dev_err(&indio_dev->dev, "Invalid channel %d\n", val); return -EINVAL; } stm32_adc_chan_init_one(indio_dev, &channels[scan_index], &stm32f4_adc123_channels[val], scan_index); scan_index++; } indio_dev->num_channels = scan_index; indio_dev->channels = channels; return 0; }

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static int stm32_adc_dma_request(struct iio_dev *indio_dev) { struct stm32_adc *adc = iio_priv(indio_dev); struct dma_slave_config config; int ret; adc->dma_chan = dma_request_slave_channel(&indio_dev->dev, "rx"); if (!adc->dma_chan) return 0; adc->rx_buf = dma_alloc_coherent(adc->dma_chan->device->dev, STM32_DMA_BUFFER_SIZE, &adc->rx_dma_buf, GFP_KERNEL); if (!adc->rx_buf) { ret = -ENOMEM; goto err_release; } /* Configure DMA channel to read data register */ memset(&config, 0, sizeof(config)); config.src_addr = (dma_addr_t)adc->common->phys_base; config.src_addr += adc->offset + STM32F4_ADC_DR; config.src_addr_width = DMA_SLAVE_BUSWIDTH_2_BYTES; ret = dmaengine_slave_config(adc->dma_chan, &config); if (ret) goto err_free; return 0; err_free: dma_free_coherent(adc->dma_chan->device->dev, STM32_DMA_BUFFER_SIZE, adc->rx_buf, adc->rx_dma_buf); err_release: dma_release_channel(adc->dma_chan); return ret; }

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static int stm32_adc_probe(struct platform_device *pdev) { struct iio_dev *indio_dev; struct stm32_adc *adc; int ret; if (!pdev->dev.of_node) return -ENODEV; indio_dev = devm_iio_device_alloc(&pdev->dev, sizeof(*adc)); if (!indio_dev) return -ENOMEM; adc = iio_priv(indio_dev); adc->common = dev_get_drvdata(pdev->dev.parent); spin_lock_init(&adc->lock); init_completion(&adc->completion); indio_dev->name = dev_name(&pdev->dev); indio_dev->dev.parent = &pdev->dev; indio_dev->dev.of_node = pdev->dev.of_node; indio_dev->info = &stm32_adc_iio_info; indio_dev->modes = INDIO_DIRECT_MODE; platform_set_drvdata(pdev, adc); ret = of_property_read_u32(pdev->dev.of_node, "reg", &adc->offset); if (ret != 0) { dev_err(&pdev->dev, "missing reg property\n"); return -EINVAL; } adc->irq = platform_get_irq(pdev, 0); if (adc->irq < 0) { dev_err(&pdev->dev, "failed to get irq\n"); return adc->irq; } ret = devm_request_irq(&pdev->dev, adc->irq, stm32_adc_isr, 0, pdev->name, adc); if (ret) { dev_err(&pdev->dev, "failed to request IRQ\n"); return ret; } adc->clk = devm_clk_get(&pdev->dev, NULL); if (IS_ERR(adc->clk)) { dev_err(&pdev->dev, "Can't get clock\n"); return PTR_ERR(adc->clk); } ret = clk_prepare_enable(adc->clk); if (ret < 0) { dev_err(&pdev->dev, "clk enable failed\n"); return ret; } ret = stm32_adc_chan_of_init(indio_dev); if (ret < 0) goto err_clk_disable; ret = stm32_adc_dma_request(indio_dev); if (ret < 0) goto err_clk_disable; ret = iio_triggered_buffer_setup(indio_dev, &iio_pollfunc_store_time, &stm32_adc_trigger_handler, &stm32_adc_buffer_setup_ops); if (ret) { dev_err(&pdev->dev, "buffer setup failed\n"); goto err_dma_disable; } ret = iio_device_register(indio_dev); if (ret) { dev_err(&pdev->dev, "iio dev register failed\n"); goto err_buffer_cleanup; } return 0; err_buffer_cleanup: iio_triggered_buffer_cleanup(indio_dev); err_dma_disable: if (adc->dma_chan) { dma_free_coherent(adc->dma_chan->device->dev, STM32_DMA_BUFFER_SIZE, adc->rx_buf, adc->rx_dma_buf); dma_release_channel(adc->dma_chan); } err_clk_disable: clk_disable_unprepare(adc->clk); return ret; }

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static int stm32_adc_remove(struct platform_device *pdev) { struct stm32_adc *adc = platform_get_drvdata(pdev); struct iio_dev *indio_dev = iio_priv_to_dev(adc); iio_device_unregister(indio_dev); iio_triggered_buffer_cleanup(indio_dev); if (adc->dma_chan) { dma_free_coherent(adc->dma_chan->device->dev, STM32_DMA_BUFFER_SIZE, adc->rx_buf, adc->rx_dma_buf); dma_release_channel(adc->dma_chan); } clk_disable_unprepare(adc->clk); return 0; }

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static const struct of_device_id stm32_adc_of_match[] = { { .compatible = "st,stm32f4-adc" }, {}, }; MODULE_DEVICE_TABLE(of, stm32_adc_of_match); static struct platform_driver stm32_adc_driver = { .probe = stm32_adc_probe, .remove = stm32_adc_remove, .driver = { .name = "stm32-adc", .of_match_table = stm32_adc_of_match, }, }; module_platform_driver(stm32_adc_driver); MODULE_AUTHOR("Fabrice Gasnier <fabrice.gasnier@st.com>"); MODULE_DESCRIPTION("STMicroelectronics STM32 ADC IIO driver"); MODULE_LICENSE("GPL v2"); MODULE_ALIAS("platform:stm32-adc");

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Directory: drivers/iio/adc
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