/* * Copyright (c) 2006-2022, RT-Thread Development Team * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2022-07-28 rtthread qiu first version */ #include "drv_dac.h" #include "drv_common.h" #include #if defined(BSP_USING_DAC1) || defined(BSP_USING_DAC2) #define LOG_TAG "drv.dac" #include struct cyp_dac { cy_stc_csdidac_config_t cyhal_dac_device; struct rt_dac_device cyp_dac_device; char *name; }; static struct cyp_dac dac_config[] = { #ifdef BSP_USING_DAC1 DAC1_CONFIG, #endif #ifdef BSP_USING_DAC2 DAC2_CONFIG, #endif }; /*get dac channel*/ static rt_uint32_t cyp_dac_get_channel(rt_uint32_t channel) { rt_uint32_t cyp_dac_channel = 0; switch (channel) { case 1: cyp_dac_channel = CY_CSDIDAC_A; break; case 2: cyp_dac_channel = CY_CSDIDAC_B; break; default: RT_ASSERT(0); break; } return cyp_dac_channel; } struct cyp_dac cyp_adc_obj[sizeof(dac_config) / sizeof(dac_config[0])]; cy_stc_csdidac_context_t csdidac_context; /*dac device enable*/ static rt_err_t cyp_dac_enabled(struct rt_dac_device *device, rt_uint32_t channel) { cy_rslt_t result; rt_uint32_t cyp_channel; RT_ASSERT(device != RT_NULL); cyhal_dac_t *dac_device; dac_device = device->parent.user_data; /* get current dac channel*/ cyp_channel = cyp_dac_get_channel(channel); /*DAC device init*/ result = Cy_CSDIDAC_Init(&CSDIDAC_csdidac_config, &csdidac_context); if (result != RT_EOK) { LOG_E("Cy_CSDIDAC_Init fail = %d\n", result); return -RT_ENOSYS; } return RT_EOK; } /*dac device disable*/ static rt_err_t cyp_dac_disable(struct rt_dac_device *device, rt_uint32_t channel) { rt_uint32_t cyp_channel; cy_rslt_t result; RT_ASSERT(device != RT_NULL); cyhal_dac_t *dac_device; dac_device = device->parent.user_data; cyp_channel = cyp_dac_get_channel(channel); /*DAC free device*/ result = Cy_CSDIDAC_OutputDisable(cyp_channel, &csdidac_context); if (result != RT_EOK) { LOG_E("DAC Outputdisable failed. Error: %d\n", result); return -RT_ENOSYS; } return RT_EOK; } /*set dac output value*/ static rt_err_t cyp_adc_convert(struct rt_dac_device *device, rt_uint32_t channel, rt_uint32_t *value) { RT_ASSERT(device != RT_NULL); cy_rslt_t result; rt_uint32_t cyp_channel; cyp_channel = cyp_dac_get_channel(channel); result = Cy_CSDIDAC_OutputEnable(cyp_channel, *value, &csdidac_context); if (result != RT_EOK) { LOG_E("DAC channel initialization failed. Error: %d\n", result); return -RT_ENOSYS; } return RT_EOK; } static const struct rt_dac_ops cyp_dac_ops = { .disabled = cyp_dac_disable, .enabled = cyp_dac_enabled, .convert = cyp_adc_convert, }; /*dac device init*/ static int rt_hw_dac_init(void) { int result = RT_EOK; /* save dac name */ char name_buf[5] = {'d', 'a', 'c', '0', 0}; int i = 0; i = sizeof(dac_config) / sizeof(dac_config[0]); for (i = 0; i < sizeof(dac_config) / sizeof(dac_config[0]); i++) { #ifdef BSP_USING_DAC1 name_buf[3] = '1'; #endif #ifdef BSP_USING_DAC2 name_buf[3] = '2'; #endif /* register DAC device */ if (rt_hw_dac_register(&cyp_adc_obj[i].cyp_dac_device, name_buf, &cyp_dac_ops, RT_NULL) == RT_EOK) { LOG_E("dac device register success\n"); } else { LOG_E("dac device register fail\n"); result = -RT_ERROR; } } return result; } INIT_BOARD_EXPORT(rt_hw_dac_init); #endif /* BSP_USING_DAC1 /BSP_USING_DAC2 */