/* * Copyright (c) 2015 Intel Corporation. * * SPDX-License-Identifier: Apache-2.0 */ /** * @file Driver for DesignWare PWM driver. * * The timer IP block can act as both timer and PWM. Under PWM mode, each port * has two registers to specify how long to stay low, and how long to stay high. * Care must be taken so that PWM and timer functions are not both enabled * on one port. * * The set of registers for each timer repeats every 0x14. * However, the load count 2 starts at 0xB0, and repeats every 0x04. * Accessing load count 2 registers, thus, requires some special treatment. */ #include #include #include #include /* Register for component version */ #define REG_COMP_VER 0xAC /* Timer Load Count register, for pin to stay low. */ #define REG_TMR_LOAD_CNT 0x00 /* Control for timer */ #define REG_TMR_CTRL 0x08 /* Offset from Timer 1 Load Count address * for other timers. (e.g. Timer 2 address +0x14, * timer 3 address + 0x28, etc.) * * This also applies to other registers for * different timers (except load count 2). */ #define REG_OFFSET 0x14 /* Timer Load Count 2 register, for pin to stay high. */ #define REG_TMR_LOAD_CNT2 0xB0 /* Offset from Timer 1 Load Count 2 address * for other timers. (e.g. Timer 2 address +0x04, * timer 3 address + 0x08, etc.) */ #define REG_OFFSET_LOAD_CNT2 0x04 /* Default for control register: * PWM mode, interrupt masked, user-defined count mode, but disabled */ #define TIMER_INIT_CTRL 0x0E struct pwm_dw_config { /** Base address of registers */ uint32_t addr; /** Number of ports */ uint32_t num_ports; }; /** * Find the base address for each timer * * @param dev Device struct * @param timer Which timer * * @return The base address of that particular timer */ static inline int pwm_dw_timer_base_addr(struct device *dev, uint32_t timer) { const struct pwm_dw_config * const cfg = (struct pwm_dw_config *)dev->config->config_info; return (cfg->addr + (timer * REG_OFFSET)); } /** * Find the load count 2 address for each timer * * @param dev Device struct * @param timer Which timer * * @return The load count 2 address of that particular timer */ static inline int pwm_dw_timer_ldcnt2_addr(struct device *dev, uint32_t timer) { const struct pwm_dw_config * const cfg = (struct pwm_dw_config *)dev->config->config_info; return (cfg->addr + REG_TMR_LOAD_CNT2 + (timer * REG_OFFSET_LOAD_CNT2)); } static int pwm_dw_configure(struct device *dev, int access_op, uint32_t pwm, int flags) { ARG_UNUSED(dev); ARG_UNUSED(access_op); ARG_UNUSED(pwm); ARG_UNUSED(flags); return 0; } static int __set_one_port(struct device *dev, uint32_t pwm, uint32_t on, uint32_t off) { uint32_t reg_addr; reg_addr = pwm_dw_timer_base_addr(dev, pwm); /* Disable timer to prevent any output */ sys_write32(TIMER_INIT_CTRL, (reg_addr + REG_TMR_CTRL)); if ((off == 0) || (on == 0)) { /* stop PWM if so specified */ return 0; } /* write timer for pin to stay low */ sys_write32(off, (reg_addr + REG_TMR_LOAD_CNT)); /* write timer for pin to stay high */ sys_write32(on, pwm_dw_timer_ldcnt2_addr(dev, pwm)); /* Enable timer so it starts running and counting */ sys_write32((TIMER_INIT_CTRL | 0x01), (reg_addr + REG_TMR_CTRL)); return 0; } /** * Set the duration for on/off timer of PWM. * * This sets the duration for the pin to low or high. * * Assumes a nominal system clock of 32MHz, each count of on/off represents * 31.25ns (e.g. on == 2 means the pin stays high for 62.5ns). * The duration of 1 count depends on system clock. Refer to the hardware * manual for more information. * * @param dev Device struct * @param access_op whether to set one pin or all * @param pwm Which PWM port to set, 0 if addressing all * @param on Duration for pin to stay high (must be >= 2) * @param off Duration for pin to stay low (must be >= 2) * * @return 0 */ static int pwm_dw_set_values(struct device *dev, int access_op, uint32_t pwm, uint32_t on, uint32_t off) { const struct pwm_dw_config * const cfg = (struct pwm_dw_config *)dev->config->config_info; int i; switch (access_op) { case PWM_ACCESS_BY_PIN: /* make sure the PWM port exists */ if (pwm >= cfg->num_ports) { return -EIO; } return __set_one_port(dev, pwm, on, off); case PWM_ACCESS_ALL: for (i = 0; i < cfg->num_ports; i++) { __set_one_port(dev, i, on, off); } return 0; } return -ENOTSUP; } static int pwm_dw_set_duty_cycle(struct device *dev, int access_op, uint32_t pwm, uint8_t duty) { /* The IP block does not natively support duty cycle settings. * So need to use set_values(). **/ ARG_UNUSED(dev); ARG_UNUSED(access_op); ARG_UNUSED(pwm); ARG_UNUSED(duty); return -ENOTSUP; } static struct pwm_driver_api pwm_dw_drv_api_funcs = { .config = pwm_dw_configure, .set_values = pwm_dw_set_values, .set_duty_cycle = pwm_dw_set_duty_cycle, }; /** * @brief Initialization function of PCA9685 * * @param dev Device struct * @return 0 if successful, failed otherwise. */ int pwm_dw_init(struct device *dev) { return 0; } /* Initialization for PWM_DW */ #if defined(CONFIG_PWM_DW) #include #include static struct pwm_dw_config pwm_dw_cfg = { .addr = PWM_DW_BASE_ADDR, .num_ports = PWM_DW_NUM_PORTS, }; DEVICE_AND_API_INIT(pwm_dw_0, CONFIG_PWM_DW_0_DRV_NAME, pwm_dw_init, NULL, &pwm_dw_cfg, POST_KERNEL, CONFIG_KERNEL_INIT_PRIORITY_DEVICE, &pwm_dw_drv_api_funcs); #endif /* CONFIG_PWM_DW */