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[bsp/at32] update pwm driver

This commit is contained in:
sheltonyu 2024-09-27 13:53:53 +08:00 committed by Meco Man
parent 4203bfeb1d
commit b4b010f4a3
1 changed files with 260 additions and 89 deletions
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349
bsp/at32/libraries/rt_drivers/drv_pwm.c
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@ -6,6 +6,7 @@
* Change Logs: * Change Logs:
* Date Author Notes * Date Author Notes
* 2022-05-16 shelton first version * 2022-05-16 shelton first version
* 2024-09-24 shelton update driver
*/ */
#include "drv_common.h" #include "drv_common.h"
@ -19,8 +20,8 @@
#include <drv_log.h> #include <drv_log.h>
#define MAX_PERIOD 65535 #define MAX_PERIOD 65535
#define MIN_PERIOD 3
struct rt_device_pwm pwm_device; #define MIN_PULSE 2
struct at32_pwm struct at32_pwm
{ {
@ -154,6 +155,54 @@ static void tmr_pclk_get(rt_uint32_t *pclk1_doubler, rt_uint32_t *pclk2_doubler)
} }
} }
static rt_err_t at32_hw_pwm_init(struct at32_pwm *instance)
{
tmr_output_config_type tmr_oc_config_struct;
tmr_type *tmr_x = instance->tmr_x;
at32_msp_tmr_init(tmr_x);
tmr_base_init(tmr_x, 0, 0);
tmr_clock_source_div_set(tmr_x, TMR_CLOCK_DIV1);
/* pwm mode configuration */
tmr_output_default_para_init(&tmr_oc_config_struct);
/* config pwm mode */
tmr_oc_config_struct.oc_mode = TMR_OUTPUT_CONTROL_PWM_MODE_A;
/* config tmr pwm output */
if(instance->channel & 0x01)
{
tmr_output_channel_config(tmr_x, TMR_SELECT_CHANNEL_1, &tmr_oc_config_struct);
tmr_output_channel_buffer_enable(tmr_x, TMR_SELECT_CHANNEL_1, TRUE);
}
if(instance->channel & 0x02)
{
tmr_output_channel_config(tmr_x, TMR_SELECT_CHANNEL_2, &tmr_oc_config_struct);
tmr_output_channel_buffer_enable(tmr_x, TMR_SELECT_CHANNEL_2, TRUE);
}
if(instance->channel & 0x04)
{
tmr_output_channel_config(tmr_x, TMR_SELECT_CHANNEL_3, &tmr_oc_config_struct);
tmr_output_channel_buffer_enable(tmr_x, TMR_SELECT_CHANNEL_3, TRUE);
}
if(instance->channel & 0x08)
{
tmr_output_channel_config(tmr_x, TMR_SELECT_CHANNEL_4, &tmr_oc_config_struct);
tmr_output_channel_buffer_enable(tmr_x, TMR_SELECT_CHANNEL_4, TRUE);
}
/* enable output */
tmr_output_enable(tmr_x, TRUE);
/* enable overflow request */
tmr_overflow_request_source_set(tmr_x, TRUE);
return RT_EOK;
}
static rt_err_t drv_pwm_enable(tmr_type* tmr_x, struct rt_pwm_configuration *configuration, rt_bool_t enable) static rt_err_t drv_pwm_enable(tmr_type* tmr_x, struct rt_pwm_configuration *configuration, rt_bool_t enable)
{ {
/* get the value of channel */ /* get the value of channel */
@ -243,10 +292,9 @@ static rt_err_t drv_pwm_enable(tmr_type* tmr_x, struct rt_pwm_configuration *con
static rt_err_t drv_pwm_get(tmr_type* tmr_x, struct rt_pwm_configuration *configuration) static rt_err_t drv_pwm_get(tmr_type* tmr_x, struct rt_pwm_configuration *configuration)
{ {
crm_clocks_freq_type clocks_struct; crm_clocks_freq_type clocks_struct;
rt_uint32_t pr, div, c1dt, c2dt, c3dt, c4dt; rt_uint32_t pr, div, c1dt, c2dt, c3dt, c4dt, tmr_clock;
rt_uint32_t pclk1_doubler = 0, pclk2_doubler = 0; rt_uint32_t pclk1_doubler = 0, pclk2_doubler = 0;
rt_uint32_t channel = configuration->channel; rt_uint32_t channel = configuration->channel;
rt_uint64_t tmr_clock;
pr = tmr_x->pr; pr = tmr_x->pr;
div = tmr_x->div; div = tmr_x->div;
@ -256,7 +304,6 @@ static rt_err_t drv_pwm_get(tmr_type* tmr_x, struct rt_pwm_configuration *config
c4dt = tmr_x->c4dt; c4dt = tmr_x->c4dt;
tmr_pclk_get(&pclk1_doubler, &pclk2_doubler); tmr_pclk_get(&pclk1_doubler, &pclk2_doubler);
crm_clocks_freq_get(&clocks_struct); crm_clocks_freq_get(&clocks_struct);
if( if(
@ -303,17 +350,11 @@ static rt_err_t drv_pwm_get(tmr_type* tmr_x, struct rt_pwm_configuration *config
static rt_err_t drv_pwm_set(tmr_type* tmr_x, struct rt_pwm_configuration *configuration) static rt_err_t drv_pwm_set(tmr_type* tmr_x, struct rt_pwm_configuration *configuration)
{ {
crm_clocks_freq_type clocks_struct; crm_clocks_freq_type clocks_struct;
tmr_output_config_type tmr_oc_config_struct;
tmr_channel_select_type channel_select; tmr_channel_select_type channel_select;
rt_uint32_t period, pulse, channel, tmr_clock; rt_uint32_t period, pulse, channel, psc, tmr_clock;
rt_uint32_t pclk1_doubler = 0, pclk2_doubler = 0; rt_uint32_t pclk1_doubler = 0, pclk2_doubler = 0;
rt_uint64_t psc;
/* init timer pin and enable clock */
at32_msp_tmr_init(tmr_x);
tmr_pclk_get(&pclk1_doubler, &pclk2_doubler); tmr_pclk_get(&pclk1_doubler, &pclk2_doubler);
crm_clocks_freq_get(&clocks_struct); crm_clocks_freq_get(&clocks_struct);
if( if(
@ -347,33 +388,161 @@ static rt_err_t drv_pwm_set(tmr_type* tmr_x, struct rt_pwm_configuration *config
period = (unsigned long long)configuration->period * tmr_clock / 1000ULL;; period = (unsigned long long)configuration->period * tmr_clock / 1000ULL;;
psc = period / MAX_PERIOD + 1; psc = period / MAX_PERIOD + 1;
period = period / psc; period = period / psc;
tmr_div_value_set(tmr_x, psc - 1);
if(period < MIN_PERIOD)
{
period = MIN_PERIOD;
}
tmr_period_value_set(tmr_x, period - 1);
/* calculate pulse width */ /* calculate pulse width */
pulse = (unsigned long long)configuration->pulse * tmr_clock / psc / 1000ULL; pulse = (unsigned long long)configuration->pulse * tmr_clock / psc / 1000ULL;
if(pulse < MIN_PULSE)
{
pulse = MIN_PULSE;
}
else if(pulse >= period)
{
pulse = period + 1;
}
/* get channel parameter */
channel = configuration->channel;
if(channel == 1)
{
channel_select = TMR_SELECT_CHANNEL_1;
}
else if(channel == 2)
{
channel_select = TMR_SELECT_CHANNEL_2;
}
else if(channel == 3)
{
channel_select = TMR_SELECT_CHANNEL_3;
}
else if(channel == 4)
{
channel_select = TMR_SELECT_CHANNEL_4;
}
tmr_channel_value_set(tmr_x, channel_select, pulse);
/* if you want the pwm setting to take effect immediately,
please uncommon the following code, but it will cause the last pwm cycle not complete. */
//tmr_counter_value_set(tmr_x, 0);
//tmr_x->swevt_bit.ovfswtr = TRUE;
return RT_EOK;
}
static rt_err_t drv_pwm_set_period(tmr_type* tmr_x, struct rt_pwm_configuration *configuration)
{
crm_clocks_freq_type clocks_struct;
rt_uint32_t period, psc, tmr_clock;
rt_uint32_t pclk1_doubler = 0, pclk2_doubler = 0;
tmr_pclk_get(&pclk1_doubler, &pclk2_doubler);
crm_clocks_freq_get(&clocks_struct);
if(
#if defined (TMR1)
(tmr_x == TMR1)
#endif
#if defined (TMR8)
|| (tmr_x == TMR8)
#endif
#if defined (TMR9)
|| (tmr_x == TMR9)
#endif
#if defined (TMR10)
|| (tmr_x == TMR10)
#endif
#if defined (TMR11)
|| (tmr_x == TMR11)
#endif
)
{
tmr_clock = clocks_struct.apb2_freq * pclk2_doubler;
}
else
{
tmr_clock = clocks_struct.apb1_freq * pclk1_doubler;
}
/* convert nanosecond to frequency and duty cycle. */
tmr_clock /= 1000000UL;
/* calculate pwm period */
period = (unsigned long long)configuration->period * tmr_clock / 1000ULL;;
psc = period / MAX_PERIOD + 1;
period = period / psc;
tmr_div_value_set(tmr_x, psc - 1);
if(period < MIN_PERIOD)
{
period = MIN_PERIOD;
}
tmr_period_value_set(tmr_x, period - 1);
return RT_EOK;
}
static rt_err_t drv_pwm_set_pulse(tmr_type* tmr_x, struct rt_pwm_configuration *configuration)
{
crm_clocks_freq_type clocks_struct;
tmr_channel_select_type channel_select;
rt_uint32_t period, pulse, channel, psc, tmr_clock;
rt_uint32_t pclk1_doubler = 0, pclk2_doubler = 0;
tmr_pclk_get(&pclk1_doubler, &pclk2_doubler);
crm_clocks_freq_get(&clocks_struct);
if(
#if defined (TMR1)
(tmr_x == TMR1)
#endif
#if defined (TMR8)
|| (tmr_x == TMR8)
#endif
#if defined (TMR9)
|| (tmr_x == TMR9)
#endif
#if defined (TMR10)
|| (tmr_x == TMR10)
#endif
#if defined (TMR11)
|| (tmr_x == TMR11)
#endif
)
{
tmr_clock = clocks_struct.apb2_freq * pclk2_doubler;
}
else
{
tmr_clock = clocks_struct.apb1_freq * pclk1_doubler;
}
/* convert nanosecond to frequency and duty cycle. */
tmr_clock /= 1000000UL;
/* calculate pwm period */
period = (unsigned long long)configuration->period * tmr_clock / 1000ULL;;
psc = period / MAX_PERIOD + 1;
/* calculate pulse width */
pulse = (unsigned long long)configuration->pulse * tmr_clock / psc / 1000ULL;
if(pulse < MIN_PULSE)
{
pulse = MIN_PULSE;
}
else if(pulse >= period)
{
pulse = period + 1;
}
/* get channel parameter */ /* get channel parameter */
channel = configuration->channel; channel = configuration->channel;
/* tmr base init */
tmr_base_init(tmr_x, period - 1, psc - 1);
tmr_clock_source_div_set(tmr_x, TMR_CLOCK_DIV1);
/* pwm mode configuration */
tmr_output_default_para_init(&tmr_oc_config_struct);
/* config pwm mode */
tmr_oc_config_struct.oc_mode = TMR_OUTPUT_CONTROL_PWM_MODE_A;
if (!configuration->complementary)
{
tmr_oc_config_struct.oc_idle_state = FALSE;
tmr_oc_config_struct.oc_output_state = FALSE;
tmr_oc_config_struct.oc_polarity = TMR_OUTPUT_ACTIVE_HIGH;
}
else
{
tmr_oc_config_struct.occ_idle_state = FALSE;
tmr_oc_config_struct.occ_output_state = FALSE;
tmr_oc_config_struct.occ_polarity = TMR_OUTPUT_ACTIVE_HIGH;
}
if(channel == 1) if(channel == 1)
{ {
channel_select = TMR_SELECT_CHANNEL_1; channel_select = TMR_SELECT_CHANNEL_1;
@ -391,14 +560,7 @@ static rt_err_t drv_pwm_set(tmr_type* tmr_x, struct rt_pwm_configuration *config
channel_select = TMR_SELECT_CHANNEL_4; channel_select = TMR_SELECT_CHANNEL_4;
} }
/* config tmr pwm output */
tmr_output_channel_config(tmr_x, channel_select, &tmr_oc_config_struct);
tmr_output_channel_buffer_enable(tmr_x, channel_select, TRUE);
tmr_channel_value_set(tmr_x, channel_select, pulse); tmr_channel_value_set(tmr_x, channel_select, pulse);
/* enable tmr period buffer */
tmr_period_buffer_enable(tmr_x, TRUE);
/* enable output */
tmr_output_enable(tmr_x, TRUE);
return RT_EOK; return RT_EOK;
} }
@ -410,16 +572,16 @@ static rt_err_t drv_pwm_control(struct rt_device_pwm *device, int cmd, void *arg
switch (cmd) switch (cmd)
{ {
case PWMN_CMD_ENABLE:
configuration->complementary = RT_TRUE;
case PWM_CMD_ENABLE: case PWM_CMD_ENABLE:
return drv_pwm_enable(tmr_x, configuration, RT_TRUE); return drv_pwm_enable(tmr_x, configuration, RT_TRUE);
case PWMN_CMD_DISABLE:
configuration->complementary = RT_FALSE;
case PWM_CMD_DISABLE: case PWM_CMD_DISABLE:
return drv_pwm_enable(tmr_x, configuration, RT_FALSE); return drv_pwm_enable(tmr_x, configuration, RT_FALSE);
case PWM_CMD_SET: case PWM_CMD_SET:
return drv_pwm_set(tmr_x, configuration); return drv_pwm_set(tmr_x, configuration);
case PWM_CMD_SET_PERIOD:
return drv_pwm_set_period(tmr_x, configuration);
case PWM_CMD_SET_PULSE:
return drv_pwm_set_pulse(tmr_x, configuration);
case PWM_CMD_GET: case PWM_CMD_GET:
return drv_pwm_get(tmr_x, configuration); return drv_pwm_get(tmr_x, configuration);
default: default:
@ -430,118 +592,118 @@ static rt_err_t drv_pwm_control(struct rt_device_pwm *device, int cmd, void *arg
static void pwm_get_channel(void) static void pwm_get_channel(void)
{ {
#ifdef BSP_USING_PWM1_CH1 #ifdef BSP_USING_PWM1_CH1
at32_pwm_obj[PWM1_INDEX].channel = 1; at32_pwm_obj[PWM1_INDEX].channel |= 1 << 0;
#endif #endif
#ifdef BSP_USING_PWM1_CH2 #ifdef BSP_USING_PWM1_CH2
at32_pwm_obj[PWM1_INDEX].channel = 2; at32_pwm_obj[PWM1_INDEX].channel |= 1 << 1;
#endif #endif
#ifdef BSP_USING_PWM1_CH3 #ifdef BSP_USING_PWM1_CH3
at32_pwm_obj[PWM1_INDEX].channel = 3; at32_pwm_obj[PWM1_INDEX].channel |= 1 << 2;
#endif #endif
#ifdef BSP_USING_PWM1_CH4 #ifdef BSP_USING_PWM1_CH4
at32_pwm_obj[PWM1_INDEX].channel = 4; at32_pwm_obj[PWM1_INDEX].channel |= 1 << 3;
#endif #endif
#ifdef BSP_USING_PWM2_CH1 #ifdef BSP_USING_PWM2_CH1
at32_pwm_obj[PWM2_INDEX].channel = 1; at32_pwm_obj[PWM2_INDEX].channel |= 1 << 0;
#endif #endif
#ifdef BSP_USING_PWM2_CH2 #ifdef BSP_USING_PWM2_CH2
at32_pwm_obj[PWM2_INDEX].channel = 2; at32_pwm_obj[PWM2_INDEX].channel |= 1 << 1;
#endif #endif
#ifdef BSP_USING_PWM2_CH3 #ifdef BSP_USING_PWM2_CH3
at32_pwm_obj[PWM2_INDEX].channel = 3; at32_pwm_obj[PWM2_INDEX].channel |= 1 << 2;
#endif #endif
#ifdef BSP_USING_PWM2_CH4 #ifdef BSP_USING_PWM2_CH4
at32_pwm_obj[PWM2_INDEX].channel = 4; at32_pwm_obj[PWM2_INDEX].channel |= 1 << 3;
#endif #endif
#ifdef BSP_USING_PWM3_CH1 #ifdef BSP_USING_PWM3_CH1
at32_pwm_obj[PWM3_INDEX].channel = 1; at32_pwm_obj[PWM3_INDEX].channel |= 1 << 0;
#endif #endif
#ifdef BSP_USING_PWM3_CH2 #ifdef BSP_USING_PWM3_CH2
at32_pwm_obj[PWM3_INDEX].channel = 2; at32_pwm_obj[PWM3_INDEX].channel |= 1 << 1;
#endif #endif
#ifdef BSP_USING_PWM3_CH3 #ifdef BSP_USING_PWM3_CH3
at32_pwm_obj[PWM3_INDEX].channel = 3; at32_pwm_obj[PWM3_INDEX].channel |= 1 << 2;
#endif #endif
#ifdef BSP_USING_PWM3_CH4 #ifdef BSP_USING_PWM3_CH4
at32_pwm_obj[PWM3_INDEX].channel = 4; at32_pwm_obj[PWM3_INDEX].channel |= 1 << 3;
#endif #endif
#ifdef BSP_USING_PWM4_CH1 #ifdef BSP_USING_PWM4_CH1
at32_pwm_obj[PWM4_INDEX].channel = 1; at32_pwm_obj[PWM4_INDEX].channel |= 1 << 0;
#endif #endif
#ifdef BSP_USING_PWM4_CH2 #ifdef BSP_USING_PWM4_CH2
at32_pwm_obj[PWM4_INDEX].channel = 2; at32_pwm_obj[PWM4_INDEX].channel |= 1 << 1;
#endif #endif
#ifdef BSP_USING_PWM4_CH3 #ifdef BSP_USING_PWM4_CH3
at32_pwm_obj[PWM4_INDEX].channel = 3; at32_pwm_obj[PWM4_INDEX].channel |= 1 << 2;
#endif #endif
#ifdef BSP_USING_PWM4_CH4 #ifdef BSP_USING_PWM4_CH4
at32_pwm_obj[PWM4_INDEX].channel = 4; at32_pwm_obj[PWM4_INDEX].channel |= 1 << 3;
#endif #endif
#ifdef BSP_USING_PWM5_CH1 #ifdef BSP_USING_PWM5_CH1
at32_pwm_obj[PWM5_INDEX].channel = 1; at32_pwm_obj[PWM5_INDEX].channel |= 1 << 0;
#endif #endif
#ifdef BSP_USING_PWM5_CH2 #ifdef BSP_USING_PWM5_CH2
at32_pwm_obj[PWM5_INDEX].channel = 2; at32_pwm_obj[PWM5_INDEX].channel |= 1 << 1;
#endif #endif
#ifdef BSP_USING_PWM5_CH3 #ifdef BSP_USING_PWM5_CH3
at32_pwm_obj[PWM5_INDEX].channel = 3; at32_pwm_obj[PWM5_INDEX].channel |= 1 << 2;
#endif #endif
#ifdef BSP_USING_PWM5_CH4 #ifdef BSP_USING_PWM5_CH4
at32_pwm_obj[PWM5_INDEX].channel = 4; at32_pwm_obj[PWM5_INDEX].channel |= 1 << 3;
#endif #endif
#ifdef BSP_USING_PWM6_CH1 #ifdef BSP_USING_PWM6_CH1
at32_pwm_obj[PWM6_INDEX].channel = 1; at32_pwm_obj[PWM6_INDEX].channel |= 1 << 0;
#endif #endif
#ifdef BSP_USING_PWM6_CH2 #ifdef BSP_USING_PWM6_CH2
at32_pwm_obj[PWM6_INDEX].channel = 2; at32_pwm_obj[PWM6_INDEX].channel |= 1 << 1;
#endif #endif
#ifdef BSP_USING_PWM6_CH3 #ifdef BSP_USING_PWM6_CH3
at32_pwm_obj[PWM6_INDEX].channel = 3; at32_pwm_obj[PWM6_INDEX].channel |= 1 << 2;
#endif #endif
#ifdef BSP_USING_PWM6_CH4 #ifdef BSP_USING_PWM6_CH4
at32_pwm_obj[PWM6_INDEX].channel = 4; at32_pwm_obj[PWM6_INDEX].channel |= 1 << 3;
#endif #endif
#ifdef BSP_USING_PWM7_CH1 #ifdef BSP_USING_PWM7_CH1
at32_pwm_obj[PWM7_INDEX].channel = 1; at32_pwm_obj[PWM7_INDEX].channel |= 1 << 0;
#endif #endif
#ifdef BSP_USING_PWM7_CH2 #ifdef BSP_USING_PWM7_CH2
at32_pwm_obj[PWM7_INDEX].channel = 2; at32_pwm_obj[PWM7_INDEX].channel |= 1 << 1;
#endif #endif
#ifdef BSP_USING_PWM7_CH3 #ifdef BSP_USING_PWM7_CH3
at32_pwm_obj[PWM7_INDEX].channel = 3; at32_pwm_obj[PWM7_INDEX].channel |= 1 << 2;
#endif #endif
#ifdef BSP_USING_PWM7_CH4 #ifdef BSP_USING_PWM7_CH4
at32_pwm_obj[PWM7_INDEX].channel = 4; at32_pwm_obj[PWM7_INDEX].channel |= 1 << 3;
#endif #endif
#ifdef BSP_USING_PWM8_CH1 #ifdef BSP_USING_PWM8_CH1
at32_pwm_obj[PWM8_INDEX].channel = 1; at32_pwm_obj[PWM8_INDEX].channel |= 1 << 0;
#endif #endif
#ifdef BSP_USING_PWM8_CH2 #ifdef BSP_USING_PWM8_CH2
at32_pwm_obj[PWM8_INDEX].channel = 2; at32_pwm_obj[PWM8_INDEX].channel |= 1 << 1;
#endif #endif
#ifdef BSP_USING_PWM8_CH3 #ifdef BSP_USING_PWM8_CH3
at32_pwm_obj[PWM8_INDEX].channel = 3; at32_pwm_obj[PWM8_INDEX].channel |= 1 << 2;
#endif #endif
#ifdef BSP_USING_PWM8_CH4 #ifdef BSP_USING_PWM8_CH4
at32_pwm_obj[PWM8_INDEX].channel = 4; at32_pwm_obj[PWM8_INDEX].channel |= 1 << 3;
#endif #endif
#ifdef BSP_USING_PWM9_CH1 #ifdef BSP_USING_PWM9_CH1
at32_pwm_obj[PWM9_INDEX].channel = 1; at32_pwm_obj[PWM9_INDEX].channel |= 1 << 0;
#endif #endif
#ifdef BSP_USING_PWM9_CH2 #ifdef BSP_USING_PWM9_CH2
at32_pwm_obj[PWM9_INDEX].channel = 2; at32_pwm_obj[PWM9_INDEX].channel |= 1 << 1;
#endif #endif
#ifdef BSP_USING_PWM9_CH3 #ifdef BSP_USING_PWM9_CH3
at32_pwm_obj[PWM9_INDEX].channel = 3; at32_pwm_obj[PWM9_INDEX].channel |= 1 << 2;
#endif #endif
#ifdef BSP_USING_PWM9_CH4 #ifdef BSP_USING_PWM9_CH4
at32_pwm_obj[PWM9_INDEX].channel = 4; at32_pwm_obj[PWM9_INDEX].channel |= 1 << 3;
#endif #endif
#ifdef BSP_USING_PWM12_CH1 #ifdef BSP_USING_PWM12_CH1
at32_pwm_obj[PWM12_INDEX].channel = 1; at32_pwm_obj[PWM12_INDEX].channel |= 1 << 0;
#endif #endif
#ifdef BSP_USING_PWM12_CH2 #ifdef BSP_USING_PWM12_CH2
at32_pwm_obj[PWM12_INDEX].channel = 2; at32_pwm_obj[PWM12_INDEX].channel |= 1 << 1;
#endif #endif
} }
@ -554,17 +716,26 @@ static int rt_hw_pwm_init(void)
for(i = 0; i < sizeof(at32_pwm_obj) / sizeof(at32_pwm_obj[0]); i++) for(i = 0; i < sizeof(at32_pwm_obj) / sizeof(at32_pwm_obj[0]); i++)
{ {
if(rt_device_pwm_register(&at32_pwm_obj[i].pwm_device, at32_pwm_obj[i].name, &drv_ops, at32_pwm_obj[i].tmr_x) == RT_EOK) if(at32_hw_pwm_init(&at32_pwm_obj[i]) != RT_EOK)
{ {
LOG_D("%s register success", at32_pwm_obj[i].name); LOG_E("%s init failed", at32_pwm_obj[i].name);
result = -RT_ERROR;
goto __exit;
} }
else else
{ {
LOG_D("%s register failed", at32_pwm_obj[i].name); if(rt_device_pwm_register(&at32_pwm_obj[i].pwm_device, at32_pwm_obj[i].name, &drv_ops, at32_pwm_obj[i].tmr_x) == RT_EOK)
result = -RT_ERROR; {
LOG_D("%s register success", at32_pwm_obj[i].name);
}
else
{
LOG_D("%s register failed", at32_pwm_obj[i].name);
result = -RT_ERROR;
}
} }
} }
__exit:
return result; return result;
} }