/* SPDX-License-Identifier: GPL-2.0-only */ #include #include #include #include enum { EN_OFFSET = 0x60, SEL_OFFSET = 0x80, EH_RSEL_OFFSET = 0xF0, GPIO_DRV0_OFFSET = 0xA0, GPIO_DRV1_OFFSET = 0xB0, }; static void gpio_set_pull_pupd(gpio_t gpio, enum pull_enable enable, enum pull_select select) { void *reg = GPIO_TO_IOCFG_BASE(gpio.base) + gpio.offset; int bit = gpio.bit; if (enable == GPIO_PULL_ENABLE) { if (select == GPIO_PULL_DOWN) setbits32(reg, 1 << (bit + 2)); else clrbits32(reg, 1 << (bit + 2)); } if (enable == GPIO_PULL_ENABLE) clrsetbits32(reg, 3 << bit, 1 << bit); else clrbits32(reg, 3 << bit); } static void gpio_set_pull_en_sel(gpio_t gpio, enum pull_enable enable, enum pull_select select) { void *reg = GPIO_TO_IOCFG_BASE(gpio.base) + gpio.offset; int bit = gpio.bit; if (enable == GPIO_PULL_ENABLE) { if (select == GPIO_PULL_DOWN) clrbits32(reg + SEL_OFFSET, 1 << bit); else setbits32(reg + SEL_OFFSET, 1 << bit); } if (enable == GPIO_PULL_ENABLE) setbits32(reg + EN_OFFSET, 1 << bit); else clrbits32(reg + EN_OFFSET, 1 << bit); } void gpio_set_pull(gpio_t gpio, enum pull_enable enable, enum pull_select select) { if (gpio.flag) gpio_set_pull_pupd(gpio, enable, select); else gpio_set_pull_en_sel(gpio, enable, select); } enum { EH_VAL = 0x0, RSEL_VAL = 0x3, EH_MASK = 0x7, RSEL_MASK = 0x3, SCL0_EH = 19, SCL0_RSEL = 15, SDA0_EH = 9, SDA0_RSEL = 5, SCL1_EH = 22, SCL1_RSEL = 17, SDA1_EH = 12, SDA1_RSEL = 7, SCL2_EH = 24, SCL2_RSEL = 20, SDA2_EH = 14, SDA2_RSEL = 10, SCL3_EH = 12, SCL3_RSEL = 10, SDA3_EH = 7, SDA3_RSEL = 5, SCL4_EH = 27, SCL4_RSEL = 22, SDA4_EH = 17, SDA4_RSEL = 12, SCL5_EH = 20, SCL5_RSEL = 18, SDA5_EH = 15, SDA5_RSEL = 13, }; #define I2C_EH_RSL_MASK(name) \ (EH_MASK << name##_EH | RSEL_MASK << name##_RSEL) #define I2C_EH_RSL_VAL(name) \ (EH_VAL << name##_EH | RSEL_VAL << name##_RSEL) void gpio_set_i2c_eh_rsel(void) { clrsetbits32((void *)IOCFG_RB_BASE + EH_RSEL_OFFSET, I2C_EH_RSL_MASK(SCL0) | I2C_EH_RSL_MASK(SDA0) | I2C_EH_RSL_MASK(SCL1) | I2C_EH_RSL_MASK(SDA1), I2C_EH_RSL_VAL(SCL0) | I2C_EH_RSL_VAL(SDA0) | I2C_EH_RSL_VAL(SCL1) | I2C_EH_RSL_VAL(SDA1)); clrsetbits32((void *)IOCFG_RM_BASE + EH_RSEL_OFFSET, I2C_EH_RSL_MASK(SCL2) | I2C_EH_RSL_MASK(SDA2) | I2C_EH_RSL_MASK(SCL4) | I2C_EH_RSL_MASK(SDA4), I2C_EH_RSL_VAL(SCL2) | I2C_EH_RSL_VAL(SDA2) | I2C_EH_RSL_VAL(SCL4) | I2C_EH_RSL_VAL(SDA4)); clrsetbits32((void *)IOCFG_BL_BASE + EH_RSEL_OFFSET, I2C_EH_RSL_MASK(SCL3) | I2C_EH_RSL_MASK(SDA3), I2C_EH_RSL_VAL(SCL3) | I2C_EH_RSL_VAL(SDA3)); clrsetbits32((void *)IOCFG_LB_BASE + EH_RSEL_OFFSET, I2C_EH_RSL_MASK(SCL5) | I2C_EH_RSL_MASK(SDA5), I2C_EH_RSL_VAL(SCL5) | I2C_EH_RSL_VAL(SDA5)); } void gpio_set_spi_driving(unsigned int bus, enum spi_pad_mask pad_select, unsigned int milliamps) { void *reg = NULL; unsigned int reg_val = milliamps / 2 - 1, offset = 0; assert(bus < SPI_BUS_NUMBER); assert(milliamps >= 2 && milliamps <= 16); assert(pad_select <= SPI_PAD1_MASK); switch (bus) { case 0: reg = (void *)(IOCFG_RB_BASE + GPIO_DRV1_OFFSET); offset = 0; break; case 1: if (pad_select == SPI_PAD0_MASK) { reg = (void *)(IOCFG_LM_BASE + GPIO_DRV0_OFFSET); offset = 0; } else if (pad_select == SPI_PAD1_MASK) { clrsetbits32((void *)IOCFG_RM_BASE + GPIO_DRV0_OFFSET, 0xf | 0xf << 20, reg_val | reg_val << 20); clrsetbits32((void *)IOCFG_RM_BASE + GPIO_DRV1_OFFSET, 0xf << 16, reg_val << 16); return; } break; case 2: clrsetbits32((void *)IOCFG_RM_BASE + GPIO_DRV0_OFFSET, 0xf << 8 | 0xf << 12, reg_val << 8 | reg_val << 12); return; case 3: reg = (void *)(IOCFG_LM_BASE + GPIO_DRV0_OFFSET); offset = 16; break; case 4: reg = (void *)(IOCFG_LM_BASE + GPIO_DRV0_OFFSET); offset = 12; break; case 5: reg = (void *)(IOCFG_LM_BASE + GPIO_DRV0_OFFSET); offset = 8; break; } clrsetbits32(reg, 0xf << offset, reg_val << offset); }