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OpenCellular/chip/npcx/adc.c
Nick Sanders 5cc3cac589 servo_v4: Fix ADC console command 
The console adc command prints adc values in the
order they appear in hardware, however they are lableled
in the order they are enumerated in board.h, which is not
necessarily the same.

This prints the correct name and value pairs, and removes
the adc_read_all_channels function which is not otherwise
used.

BUG=chromium:571476
BRANCH=None
TEST="adc" command associates correct values with names now.

Change-Id: I688641953d20082224b4120eaefe0d634ad4c74c
Signed-off-by: Nick Sanders <nsanders@google.com>
Reviewed-on: https://chromium-review.googlesource.com/340892
Commit-Ready: Nick Sanders <nsanders@chromium.org>
Tested-by: Nick Sanders <nsanders@chromium.org>
Reviewed-by: Shawn N <shawnn@chromium.org>
2016-05-26 16:17:26 -07:00

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/* Copyright (c) 2014 The Chromium OS Authors. All rights reserved.
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
/* NPCX-specific ADC module for Chrome EC */
#include "adc.h"
#include "adc_chip.h"
#include "atomic.h"
#include "clock.h"
#include "clock_chip.h"
#include "console.h"
#include "common.h"
#include "gpio.h"
#include "hooks.h"
#include "registers.h"
#include "task.h"
#include "timer.h"
#include "util.h"
/* Maximum time we allow for an ADC conversion */
#define ADC_TIMEOUT_US SECOND
#define ADC_CLK 2000000
#define ADC_REGULAR_DLY 0x11
#define ADC_REGULAR_ADCCNF2 0x8B07
#define ADC_REGULAR_GENDLY 0x0100
#define ADC_REGULAR_MEAST 0x0001
/* ADC conversion mode */
enum npcx_adc_conversion_mode {
ADC_CHN_CONVERSION_MODE = 0,
ADC_SCAN_CONVERSION_MODE = 1
};
/* Global variables */
static volatile task_id_t task_waiting;
/**
* Preset ADC operation clock.
*
* @param none
* @return none
* @notes changed when initial or HOOK_FREQ_CHANGE command
*/
void adc_freq_changed(void)
{
uint8_t prescaler_divider = 0;
/* Set clock prescaler divider to ADC module*/
prescaler_divider = (uint8_t)(clock_get_apb1_freq() / ADC_CLK);
if (prescaler_divider >= 1)
prescaler_divider = prescaler_divider - 1;
if (prescaler_divider > 0x3F)
prescaler_divider = 0x3F;
/* Set Core Clock Division Factor in order to obtain the ADC clock */
SET_FIELD(NPCX_ATCTL, NPCX_ATCTL_SCLKDIV_FIELD, prescaler_divider);
}
DECLARE_HOOK(HOOK_FREQ_CHANGE, adc_freq_changed, HOOK_PRIO_DEFAULT);
/**
* Get current voltage data of the specified channel.
*
* @param input_ch npcx input channel to read
* @return ADC channel voltage data.(Range: 0~1023)
*/
static int get_channel_data(enum npcx_adc_input_channel input_ch)
{
return GET_FIELD(NPCX_CHNDAT(input_ch), NPCX_CHNDAT_CHDAT_FIELD);
}
/**
* Flush an ADC sequencer and initiate a read.
*
* @param input_ch operation channel
* @param timeout preset timeout
* @return TRUE/FALSE success/fail
* @notes set SW-triggered interrupt conversion and one-shot mode in npcx chip
*/
static int start_single_and_wait(enum npcx_adc_input_channel input_ch
, int timeout)
{
int event;
task_waiting = task_get_current();
/* Set ADC conversion code to SW conversion mode */
SET_FIELD(NPCX_ADCCNF, NPCX_ADCCNF_ADCMD_FIELD,
ADC_CHN_CONVERSION_MODE);
/* Set conversion type to one-shot type */
CLEAR_BIT(NPCX_ADCCNF, NPCX_ADCCNF_ADCRPTC);
/* Update number of channel to be converted */
SET_FIELD(NPCX_ASCADD, NPCX_ASCADD_SADDR_FIELD, input_ch);
/* Clear End-of-Conversion Event status */
SET_BIT(NPCX_ADCSTS, NPCX_ADCSTS_EOCEV);
/* Enable ADC End-of-Conversion Interrupt if applicable */
SET_BIT(NPCX_ADCCNF, NPCX_ADCCNF_INTECEN);
/* Start conversion */
SET_BIT(NPCX_ADCCNF, NPCX_ADCCNF_START);
/* Wait for interrupt */
event = task_wait_event(timeout);
task_waiting = TASK_ID_INVALID;
return event != TASK_EVENT_TIMER;
}
/**
* ADC read specific channel.
*
* @param ch operation channel
* @return ADC converted voltage or error message
*/
int adc_read_channel(enum adc_channel ch)
{
const struct adc_t *adc = adc_channels + ch;
static struct mutex adc_lock;
int value;
mutex_lock(&adc_lock);
if (start_single_and_wait(adc->input_ch, ADC_TIMEOUT_US)) {
if ((adc->input_ch ==
GET_FIELD(NPCX_ASCADD, NPCX_ASCADD_SADDR_FIELD))
&& (IS_BIT_SET(NPCX_CHNDAT(adc->input_ch),
NPCX_CHNDAT_NEW))) {
value = get_channel_data(adc->input_ch) *
adc->factor_mul / adc->factor_div + adc->shift;
} else {
value = ADC_READ_ERROR;
}
} else {
value = ADC_READ_ERROR;
}
mutex_unlock(&adc_lock);
return value;
}
/**
* ADC interrupt handler
*
* @param none
* @return none
* @notes Only handle SW-triggered conversion in npcx chip
*/
void adc_interrupt(void)
{
if (IS_BIT_SET(NPCX_ADCSTS, NPCX_ADCSTS_EOCEV)) {
/* Disable End-of-Conversion Interrupt */
CLEAR_BIT(NPCX_ADCCNF, NPCX_ADCCNF_INTECEN);
/* Stop conversion */
SET_BIT(NPCX_ADCCNF, NPCX_ADCCNF_STOP);
/* Clear End-of-Conversion Event status */
SET_BIT(NPCX_ADCSTS, NPCX_ADCSTS_EOCEV);
/* Wake up the task which was waiting for the interrupt */
if (task_waiting != TASK_ID_INVALID)
task_wake(task_waiting);
}
}
DECLARE_IRQ(NPCX_IRQ_ADC, adc_interrupt, 2);
/**
* ADC initial.
*
* @param none
* @return none
*/
static void adc_init(void)
{
/* Configure pins from GPIOs to ADCs */
gpio_config_module(MODULE_ADC, 1);
/* Enable ADC clock (bit4 mask = 0x10) */
clock_enable_peripheral(CGC_OFFSET_ADC, CGC_ADC_MASK,
CGC_MODE_RUN | CGC_MODE_SLEEP);
/* Enable ADC */
SET_BIT(NPCX_ADCCNF, NPCX_ADCCNF_ADCEN);
/* Set Core Clock Division Factor in order to obtain the ADC clock */
adc_freq_changed();
/* Set regular speed */
SET_FIELD(NPCX_ATCTL, NPCX_ATCTL_DLY_FIELD, (ADC_REGULAR_DLY - 1));
/* Set the other ADC settings */
NPCX_ADCCNF2 = ADC_REGULAR_ADCCNF2;
NPCX_GENDLY = ADC_REGULAR_GENDLY;
NPCX_MEAST = ADC_REGULAR_MEAST;
task_waiting = TASK_ID_INVALID;
/* Enable IRQs */
task_enable_irq(NPCX_IRQ_ADC);
}
DECLARE_HOOK(HOOK_INIT, adc_init, HOOK_PRIO_INIT_ADC);
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