/* * Copyright (c) 2018 SiFive Inc. * * SPDX-License-Identifier: Apache-2.0 */ #include LOG_MODULE_REGISTER(pwm_sifive, CONFIG_PWM_LOG_LEVEL); #include #include #include /* Macros */ #define PWM_REG(z_config, _offset) ((mem_addr_t) ((z_config)->base + _offset)) /* Register Offsets */ #define REG_PWMCFG 0x00 #define REG_PWMCOUNT 0x08 #define REG_PWMS 0x10 #define REG_PWMCMP0 0x20 #define REG_PWMCMP(_channel) (REG_PWMCMP0 + ((_channel) * 0x4)) /* Number of PWM Channels */ #define SF_NUMCHANNELS 4 /* pwmcfg Bit Offsets */ #define SF_PWMSTICKY 8 #define SF_PWMZEROCMP 9 #define SF_PWMDEGLITCH 10 #define SF_PWMENALWAYS 12 #define SF_PWMENONESHOT 13 #define SF_PWMCMPCENTER(_channel) (16 + (_channel)) #define SF_PWMCMPGANG(_channel) (24 + (_channel)) #define SF_PWMCMPIP(_channel) (28 + (_channel)) /* pwmcount scale factor */ #define SF_PWMSCALEMASK 0xF #define SF_PWMSCALE(_val) (SF_PWMSCALEMASK & (_val)) #define SF_PWMCOUNT_MIN_WIDTH 15 /* Structure Declarations */ struct pwm_sifive_data {}; struct pwm_sifive_cfg { u32_t base; u32_t f_sys; u32_t cmpwidth; }; /* Helper Functions */ static inline void sys_set_mask(mem_addr_t addr, u32_t mask, u32_t value) { u32_t temp = sys_read32(addr); temp &= ~(mask); temp |= value; sys_write32(temp, addr); } /* API Functions */ static int pwm_sifive_init(struct device *dev) { const struct pwm_sifive_cfg *config = dev->config->config_info; /* When pwms == pwmcmp0, reset the counter */ sys_set_bit(PWM_REG(config, REG_PWMCFG), SF_PWMZEROCMP); /* Enable continuous operation */ sys_set_bit(PWM_REG(config, REG_PWMCFG), SF_PWMENALWAYS); /* Clear IP config bits */ sys_clear_bit(PWM_REG(config, REG_PWMCFG), SF_PWMSTICKY); sys_clear_bit(PWM_REG(config, REG_PWMCFG), SF_PWMDEGLITCH); /* Clear all channels */ for (int i = 0; i < SF_NUMCHANNELS; i++) { /* Clear the channel comparator */ sys_write32(0, PWM_REG(config, REG_PWMCMP(i))); /* Clear the compare center and compare gang bits */ sys_clear_bit(PWM_REG(config, REG_PWMCFG), SF_PWMCMPCENTER(i)); sys_clear_bit(PWM_REG(config, REG_PWMCFG), SF_PWMCMPGANG(i)); } return 0; } static int pwm_sifive_pin_set(struct device *dev, u32_t pwm, u32_t period_cycles, u32_t pulse_cycles) { const struct pwm_sifive_cfg *config = NULL; u32_t count_max = 0U; u32_t max_cmp_val = 0U; u32_t pwmscale = 0U; if (dev == NULL) { LOG_ERR("The device instance pointer was NULL\n"); return -EFAULT; } if (dev->config == NULL) { LOG_ERR("The device config pointer was NULL\n"); return -EFAULT; } config = dev->config->config_info; if (config == NULL) { LOG_ERR("The device configuration is NULL\n"); return -EFAULT; } if (pwm >= SF_NUMCHANNELS) { LOG_ERR("The requested PWM channel %d is invalid\n", pwm); return -EINVAL; } /* Channel 0 sets the period, we can't output PWM with it */ if ((pwm == 0U)) { LOG_ERR("PWM channel 0 cannot be configured\n"); return -ENOTSUP; } /* We can't support periods greater than we can store in pwmcount */ count_max = (1 << (config->cmpwidth + SF_PWMCOUNT_MIN_WIDTH)) - 1; if (period_cycles > count_max) { LOG_ERR("Requested period is %d but maximum is %d\n", period_cycles, count_max); return -EIO; } /* Calculate the maximum value that pwmcmpX can be set to */ max_cmp_val = ((1 << config->cmpwidth) - 1); /* * Find the minimum value of pwmscale that will allow us to set the * requested period */ while ((period_cycles >> pwmscale) > max_cmp_val) { pwmscale++; } /* Make sure that we can scale that much */ if (pwmscale > SF_PWMSCALEMASK) { LOG_ERR("Requested period is %d but maximum is %d\n", period_cycles, max_cmp_val << pwmscale); return -EIO; } if (pulse_cycles > period_cycles) { LOG_ERR("Requested pulse %d is longer than period %d\n", pulse_cycles, period_cycles); return -EIO; } /* Set the pwmscale field */ sys_set_mask(PWM_REG(config, REG_PWMCFG), SF_PWMSCALEMASK, SF_PWMSCALE(pwmscale)); /* Set the period by setting pwmcmp0 */ sys_write32((period_cycles >> pwmscale), PWM_REG(config, REG_PWMCMP0)); /* Set the duty cycle by setting pwmcmpX */ sys_write32((pulse_cycles >> pwmscale), PWM_REG(config, REG_PWMCMP(pwm))); LOG_DBG("channel: %d, pwmscale: %d, pwmcmp0: %d, pwmcmp%d: %d", pwm, pwmscale, (period_cycles >> pwmscale), pwm, (pulse_cycles >> pwmscale)); return 0; } static int pwm_sifive_get_cycles_per_sec(struct device *dev, u32_t pwm, u64_t *cycles) { const struct pwm_sifive_cfg *config; if (dev == NULL) { LOG_ERR("The device instance pointer was NULL\n"); return -EFAULT; } if (dev->config == NULL) { LOG_ERR("The device config pointer was NULL\n"); return -EFAULT; } config = dev->config->config_info; if (config == NULL) { LOG_ERR("The device configuration is NULL\n"); return -EFAULT; } /* Fail if we don't have that channel */ if (pwm >= SF_NUMCHANNELS) { return -EINVAL; } *cycles = config->f_sys; return 0; } /* Device Instantiation */ static const struct pwm_driver_api pwm_sifive_api = { .pin_set = pwm_sifive_pin_set, .get_cycles_per_sec = pwm_sifive_get_cycles_per_sec, }; #define PWM_SIFIVE_INIT(n) \ static struct pwm_sifive_data pwm_sifive_data_##n; \ static const struct pwm_sifive_cfg pwm_sifive_cfg_##n = { \ .base = DT_INST_##n##_SIFIVE_PWM0_BASE_ADDRESS, \ .f_sys = DT_INST_##n##_SIFIVE_PWM0_CLOCK_FREQUENCY, \ .cmpwidth = DT_INST_##n##_SIFIVE_PWM0_SIFIVE_COMPARE_WIDTH, \ }; \ DEVICE_AND_API_INIT(pwm_##n, \ DT_INST_##n##_SIFIVE_PWM0_LABEL, \ pwm_sifive_init, \ &pwm_sifive_data_##n, \ &pwm_sifive_cfg_##n, \ POST_KERNEL, \ CONFIG_PWM_SIFIVE_INIT_PRIORITY, \ &pwm_sifive_api) #ifdef DT_INST_0_SIFIVE_PWM0_LABEL PWM_SIFIVE_INIT(0); #endif /* DT_INST_0_SIFIVE_PWM0_LABEL */ #ifdef DT_INST_1_SIFIVE_PWM0_LABEL PWM_SIFIVE_INIT(1); #endif /* DT_INST_1_SIFIVE_PWM0_LABEL */ #ifdef DT_INST_2_SIFIVE_PWM0_LABEL PWM_SIFIVE_INIT(2); #endif /* DT_INST_2_SIFIVE_PWM0_LABEL */