rt-thread-official/bsp/cvitek/drivers/drv_adc.c

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/*
* Copyright (c) 2006-2024, RT-Thread Development Team
*
* SPDX-License-Identifier: Apache-2.0
*
* Change Logs:
* Date Author Notes
* 2024/02/22 flyingcys first version
*/
#include <rtthread.h>
#include <rtdevice.h>
#include "drv_adc.h"
#include "drv_pinmux.h"
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#define DBG_LEVEL DBG_LOG
#include <rtdbg.h>
#define LOG_TAG "DRV.ADC"
rt_inline void cvi_set_saradc_ctrl(unsigned long reg_base, rt_uint32_t value)
{
value |= mmio_read_32(reg_base + SARADC_CTRL_OFFSET);
mmio_write_32(reg_base + SARADC_CTRL_OFFSET, value);
}
rt_inline void cvi_reset_saradc_ctrl(unsigned long reg_base, rt_uint32_t value)
{
value = mmio_read_32(reg_base + SARADC_CTRL_OFFSET) & ~value;
mmio_write_32(reg_base + SARADC_CTRL_OFFSET, value);
}
rt_inline rt_uint32_t cvi_get_saradc_status(unsigned long reg_base)
{
return((rt_uint32_t)mmio_read_32(reg_base + SARADC_STATUS_OFFSET));
}
rt_inline void cvi_set_cyc(unsigned long reg_base)
{
rt_uint32_t value;
value = mmio_read_32(reg_base + SARADC_CYC_SET_OFFSET);
value &= ~SARADC_CYC_CLKDIV_DIV_16;
mmio_write_32(reg_base + SARADC_CYC_SET_OFFSET, value);
value |= SARADC_CYC_CLKDIV_DIV_16; //set saradc clock cycle=840ns
mmio_write_32(reg_base + SARADC_CYC_SET_OFFSET, value);
}
rt_inline void cvi_do_calibration(unsigned long reg_base)
{
rt_uint32_t val;
val = mmio_read_32(reg_base + SARADC_TEST_OFFSET);
val |= 1 << SARADC_TEST_VREFSEL_BIT;
mmio_write_32(reg_base + SARADC_TEST_OFFSET, val);
val = mmio_read_32(reg_base + SARADC_TRIM_OFFSET);
val |= 0x4;
mmio_write_32(reg_base + SARADC_TRIM_OFFSET, val);
}
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struct cvi_adc_dev
{
struct rt_adc_device device;
const char *name;
rt_ubase_t base;
};
static struct cvi_adc_dev adc_dev_config[] =
{
#ifdef BSP_USING_ADC_ACTIVE
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{
.name = "adc1",
.base = SARADC_BASE
},
#endif /* BSP_USING_ADC_ACTIVE */
#ifdef BSP_USING_ADC_NODIE
{
.name = "adc2",
.base = RTC_ADC_BASE
},
#endif /* BSP_USING_ADC_NODIE */
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};
static rt_err_t _adc_enabled(struct rt_adc_device *device, rt_int8_t channel, rt_bool_t enabled)
{
struct cvi_adc_dev *adc_dev = (struct cvi_adc_dev *)device->parent.user_data;
uint32_t value;
RT_ASSERT(adc_dev != RT_NULL);
if (channel > SARADC_CH_MAX)
return -RT_EINVAL;
if (enabled)
{
//set channel
cvi_set_saradc_ctrl(adc_dev->base, (rt_uint32_t)channel << (SARADC_CTRL_SEL_POS + 1));
//set saradc clock cycle
cvi_set_cyc(adc_dev->base);
//start
cvi_set_saradc_ctrl(adc_dev->base, SARADC_CTRL_START);
LOG_D("enable saradc...");
}
else
{
cvi_reset_saradc_ctrl(adc_dev->base, (rt_uint32_t)channel << (SARADC_CTRL_SEL_POS + 1));
LOG_D("disable saradc...");
}
return RT_EOK;
}
static rt_err_t _adc_convert(struct rt_adc_device *device, rt_int8_t channel, rt_uint32_t *value)
{
struct cvi_adc_dev *adc_dev = (struct cvi_adc_dev *)device->parent.user_data;
rt_uint32_t result;
rt_uint32_t cnt = 0;
RT_ASSERT(adc_dev != RT_NULL);
if (channel > SARADC_CH_MAX)
return -RT_EINVAL;
while (cvi_get_saradc_status(adc_dev->base) & SARADC_STATUS_BUSY)
{
rt_thread_delay(10);
LOG_D("wait saradc ready");
cnt ++;
if (cnt > 100)
return -RT_ETIMEOUT;
}
result = mmio_read_32(adc_dev->base + SARADC_RESULT(channel - 1));
if (result & SARADC_RESULT_VALID)
{
*value = result & SARADC_RESULT_MASK;
LOG_D("saradc channel %d value: %04x", channel, *value);
}
else
{
LOG_E("saradc channel %d read failed. result:0x%04x", channel, result);
return -RT_ERROR;
}
return RT_EOK;
}
static const struct rt_adc_ops _adc_ops =
{
.enabled = _adc_enabled,
.convert = _adc_convert,
};
#if defined(BOARD_TYPE_MILKV_DUO) || defined(BOARD_TYPE_MILKV_DUO_SPINOR)
/*
* cv180xb supports
* - adc1 & adc2 for active domain
* - adc3 for no-die domain
*/
#ifdef BSP_USING_ADC_ACTIVE
static const char *pinname_whitelist_adc1_active[] = {
"ADC1",
NULL,
};
static const char *pinname_whitelist_adc2_active[] = {
NULL,
};
static const char *pinname_whitelist_adc3_active[] = {
NULL,
};
#endif
#ifdef BSP_USING_ADC_NODIE
static const char *pinname_whitelist_adc1_nodie[] = {
"PWR_GPIO2",
NULL,
};
static const char *pinname_whitelist_adc2_nodie[] = {
"PWR_GPIO1",
NULL,
};
static const char *pinname_whitelist_adc3_nodie[] = {
"PWR_VBAT_DET",
NULL,
};
#endif
#elif defined(BOARD_TYPE_MILKV_DUO256M) || defined(BOARD_TYPE_MILKV_DUO256M_SPINOR)
/*
* sg2002 supports
* - adc1 for active domain
* - adc1/adc2/adc3 for no-die domain
*/
#ifdef BSP_USING_ADC_ACTIVE
static const char *pinname_whitelist_adc1_active[] = {
"ADC1",
NULL,
};
static const char *pinname_whitelist_adc2_active[] = {
NULL,
};
static const char *pinname_whitelist_adc3_active[] = {
NULL,
};
#endif
#ifdef BSP_USING_ADC_NODIE
static const char *pinname_whitelist_adc1_nodie[] = {
"PWR_GPIO2",
NULL,
};
static const char *pinname_whitelist_adc2_nodie[] = {
"PWR_GPIO1",
NULL,
};
static const char *pinname_whitelist_adc3_nodie[] = {
"PWR_VBAT_DET",
NULL,
};
#endif
#else
#error "Unsupported board type!"
#endif
static void rt_hw_adc_pinmux_config()
{
#ifdef BSP_USING_ADC_ACTIVE
pinmux_config(BSP_ACTIVE_ADC1_PINNAME, XGPIOB_3, pinname_whitelist_adc1_active);
pinmux_config(BSP_ACTIVE_ADC2_PINNAME, XGPIOB_6, pinname_whitelist_adc2_active);
/* cv1800b & sg2002 don't support ADC3 either in active domain */
#endif
#ifdef BSP_USING_ADC_NODIE
pinmux_config(BSP_NODIE_ADC1_PINNAME, PWR_GPIO_2, pinname_whitelist_adc1_nodie);
pinmux_config(BSP_NODIE_ADC2_PINNAME, PWR_GPIO_1, pinname_whitelist_adc2_nodie);
pinmux_config(BSP_NODIE_ADC3_PINNAME, PWR_VBAT_DET, pinname_whitelist_adc3_nodie);
#endif
}
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int rt_hw_adc_init(void)
{
rt_uint8_t i;
rt_hw_adc_pinmux_config();
for (i = 0; i < sizeof(adc_dev_config) / sizeof(adc_dev_config[0]); i++)
{
cvi_do_calibration(adc_dev_config[i].base);
}
for (i = 0; i < sizeof(adc_dev_config) / sizeof(adc_dev_config[0]); i++)
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{
if (rt_hw_adc_register(&adc_dev_config[i].device, adc_dev_config[i].name, &_adc_ops, &adc_dev_config[i]) != RT_EOK)
{
LOG_E("%s register failed!", adc_dev_config[i].name);
return -RT_ERROR;
}
}
return RT_EOK;
}
INIT_DEVICE_EXPORT(rt_hw_adc_init);